JP2010255411A - Combination engine with various energy conservation cycle - Google Patents

Combination engine with various energy conservation cycle Download PDF

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JP2010255411A
JP2010255411A JP2009048869A JP2009048869A JP2010255411A JP 2010255411 A JP2010255411 A JP 2010255411A JP 2009048869 A JP2009048869 A JP 2009048869A JP 2009048869 A JP2009048869 A JP 2009048869A JP 2010255411 A JP2010255411 A JP 2010255411A
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liquid metal
power generation
turbine
water
vertically downward
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Hiroyasu Tanigawa
浩保 谷川
Kazunaga Tanigawa
和永 谷川
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/10Geothermal energy

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Abstract

<P>PROBLEM TO BE SOLVED: To drive out the existing power generation to prevent global heating by increasing electric-generating capacity to 10,000 to 23,000 times by liquid metal gravity solar opposed turbines. <P>SOLUTION: Three kinds of liquid metal gravity solar opposed turbines are driven so as to perform liquid metal gravity acceleration, compressed air heat quantity acceleration and compressed air mass acceleration. Liquid metal power having the same speed and the same volume as the atmospheric pressure is set to be 10,000 to 23,000 times stronger than power generation performed by the existing steam turbine, gravity acceleration of 9.8 meters a second is additionally increased downward in a vacuum direction or downward in a low-pressure direction, the liquid metal gravity solar opposed turbines are driven with no fuel expense, no rise in sea temperature and no CO2 emissions, and the quantity of heat produced is made to approach infinity by a heat pump in order to supply heat and cold as by-products of power generation. Thereby, various automobiles and various ships respectively driven by storage batteries, electrification of various plants driven by electricity and domestic electrification, are fully achieved by liquid metal gravity solar power generation, finite resources such as fossil fuel are left to posterity, and also the global heating is prevented. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

地球最大加速が重力加速度で最大熱量が太陽光です。従って重力加速度太陽熱利用理論最良エンジンを、液体金属重力対向タービン8G3種類から選択使用として、圧縮空気熱量液体金属重力駆動タービン+圧縮空気質量液体金属重力駆動タービン+真空中液体金属重力駆動タービンとし、液体金属を合金含む水銀・液体鉛・液体ビスマス・液体錫・液体カドミウム・液体インジウム・液体ガリウム・液体亜鉛・液体タリウム・その他+水から選択実験使用として、液体金属重力対向タービン8Gを用途に合わせて多段に設けて落差を増大した出力増大とし、合金を含む液体金属を400MPa等液体金属噴射ポンプ6Lで3種類タービンに噴射して、タービン駆動の過程では、最適温度液体金属を圧縮空気熱量速度+圧縮空気質量速度+真空中の重力で加速し、タービン翼断面4Xを既存蒸気タービンの2〜25倍にしたタービン翼8cに噴射して、夫々を液体金属の転がり接触回転出力の増大とし、3種類液体金属重力対向タービン8Gの回転出力発生にして、対向タービン間水平軸に同期歯車55を設け同期し、発電機1や熱ポンプ1G多数駆動で熱無限製造に挑戦して、排気室に空気抽出器51を設けて真空中の重力加速度利用や排気室の圧力低下とし、実験最良エンジンに移行温度管理の液体金属重力対向タービン技術に関する。   The earth's maximum acceleration is gravity acceleration and the maximum amount of heat is sunlight. Therefore, the gravity acceleration solar thermal theory theory best engine is a compressed air calorific liquid metal gravity driven turbine + compressed air mass liquid metal gravity driven turbine + vacuum liquid metal gravity driven turbine as a liquid metal gravity facing turbine 8G 3 types of selective use. Liquid metal gravity counter-turbine 8G is used as an experiment to select from mercury, liquid lead, liquid bismuth, liquid tin, liquid tin, liquid cadmium, liquid indium, liquid gallium, liquid zinc, liquid thallium, and other metals containing metal alloys. The liquid metal including the alloy is injected to the three types of turbines by the liquid metal jet pump 6L with 400MPa, etc., and the optimum temperature liquid metal is compressed at the optimal temperature of compressed air heat rate + Accelerated by compressed air mass velocity + gravity in vacuum, turbine blade cross section 4X -Injection into the turbine blade 8c, which is 2 to 25 times larger than the bin, to increase the rolling contact rotational power of liquid metal, generate rotational power of the three types of liquid metal gravity opposing turbine 8G, The synchronous gear 55 is provided to synchronize, and the generator 1 and the heat pump 1G are driven in large numbers to challenge thermal infinite manufacture, and the air extractor 51 is provided in the exhaust chamber to use gravity acceleration in vacuum and pressure drop in the exhaust chamber, The experimental best engine relates to liquid metal gravity counter-turbine technology of transition temperature control.

タービン回転出力により熱ポンプ1Gを駆動、長レンズ2d熱吸収材2Bで構成の吸入空気路28A太陽熱加熱空気28aを吸入し、圧縮800〜1200度にして空気熱交換器2Xで空気28aを500〜600度に加熱して、熱ポンプ1Gで吸入圧縮1200度前後にして熱回収を繰り返し、燃料費0で熱製造無限圧縮空気熱量+圧縮空気質量無限に挑戦して、圧縮熱回収器2Cの水熱交換器2Yや液体金属熱交換器2Jで熱交換圧縮空気を冷却し、500度前後24〜400MPa過熱蒸気50(圧縮空気熱量)+300度前後24〜400MPa圧縮空気質量+最適温度液体金属に分割保存使用して、最適温度液体金属を液体金属噴射ポンプ6Lで3種類タービンに噴射し、分割保存した夫々の圧力速度で2種類タービンの噴射液体金属を加速して、真空を利用して1種類タービンの噴射液体金属を加速し、3種類の液体金属重力対向タービン8Gを駆動して、夫々の大気圧同速度同容積仕事率kg重m/秒を、既存蒸気タービン発電の1700×5.91〜13.55倍=1〜2.3万倍液体金属発電とし、排気の過程では空気抽出器51で圧縮空気質量排気を吸引して圧縮空気熱量排気を冷却して、CO2排気0海水温度上昇0燃料費0で夫々の回転出力を発生する、実験移行温度管理の液体金属重力太陽熱発電技術に関する。 The heat pump 1G is driven by the turbine rotational output, and the suction air passage 28A constituted by the long lens 2d heat absorbing material 2B is drawn in, and the air 28a is compressed by the air heat exchanger 2X with compression 800 to 1200 degrees. Heat to 600 ° C and repeat heat recovery at around 1200 ° C with suction and compression at heat pump 1G, heat production infinite compression air heat + compression air mass infinite challenge at fuel cost 0, water of compression heat recovery device 2C Heat exchange compressed air is cooled by heat exchanger 2Y or liquid metal heat exchanger 2J and divided into approximately 500 degrees 24 to 400MPa superheated steam 50 (compressed air heat) + around 300 degrees 24 to 400MPa compressed air mass + optimum temperature liquid metal Using storage, the optimum temperature liquid metal is injected to the three types of turbines by the liquid metal injection pump 6L, and the divided liquid of two types of turbine injection liquid at each pressure speed The group is accelerated to accelerate the jetted liquid metal of one type of turbine using vacuum and drive the three types of liquid metal gravity opposing turbines 8G to operate at the same atmospheric pressure and speed, respectively, at the same volume and work volume kg kg m / m. The second is 1700 × 5.91 to 13.55 times = 1 to 23,000 times liquid metal power generation of the existing steam turbine power generation, and in the process of the exhaust, the compressed air mass exhaust is sucked by the air extractor 51 to compress the compressed air The invention relates to liquid metal gravity solar thermal power generation technology of experimental transition temperature control, which cools calorific exhaust and generate respective rotational output with CO2 exhaust 0 seawater temperature rise 0 fuel cost 0.

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

出力や仕事率の単位がkg重m/秒等重量×速度のため、重い物質を重力加速度加速にして回転出力を発生するのが理論最良エンジンですが、考えた痕跡が皆無という背景があります。そこで消費燃料僅少の竪型全動翼液体金属重力太陽熱エンジン駆動飛行機類や船舶類にして、停止中は熱と電気と冷熱の供給設備で使用可能に地球温暖化防止する等とし、大気圧同速度同容積仕事率kg重m/秒を既存蒸気タービンの1〜2.3万倍液体金属仕事率にして、水銀・液体鉛・液体ビスマス・液体錫・液体カドミウム・液体インジウム・液体ガリウム・液体亜鉛・液体タリウム等液体金属+水を垂直下方に重力加速度加速にすると、低速で落差を増大する入力より重力加速度加速だけでも出力発生は大幅に増大し、更に各種爆発力を追加した出力として、タービンの大型化多数化+落差を1000m以上に増大限り無く発電量を増大できる背景があります。地球での最大加速が重力加速度で無限大に近く、海水温度上昇0やCO2排気0や燃料費0の理論最良エンジン重力発電として、化石燃料等限りある資源が枯渇するため、限りある資源を子孫に残す手段の温熱や冷熱の回収利用無限大や無限大発電量とし、重力発電蓄電池駆動や電気駆動の、各種自動車類全盛や各種船舶類全盛や全面電化住宅全盛等、極端に安価な発電の蓄電池駆動や電気駆動の地球温暖化防止が得られる背景があります。   Since the unit of output and work rate is kg weight m / sec isoweight x velocity, it is theoretically the best engine to generate rotational output by accelerating a gravitational substance with a heavy substance, but there is no background for thinking about it. Therefore, it will be used as a wing-type full blade liquid metal gravity solar thermal engine drive airplanes and ships with minimal fuel consumption, and it will be used in heat, electricity and cold heat supply facilities during shutdown to prevent global warming etc. Mercury, liquid lead, liquid bismuth, liquid tin, liquid tin, liquid indium, liquid gallium, liquid with the same volume work capacity kg-weight m / sec being 1 to 23,000 times the liquid metal work rate of existing steam turbines When the gravity acceleration of zinc and liquid thallium such as liquid metal + water is made vertically downward, the output generation is greatly increased by the gravity acceleration acceleration rather than the input that increases the drop at low speed, and the output with various explosive powers is further added Increasing the number of turbines and increasing the head to over 1000 m There is a background that can increase the amount of power generation as much as possible. The greatest acceleration on earth is near infinity by gravity acceleration, and the theoretical best engine gravity power of sea water temperature rise 0, CO 2 exhaust 0 and fuel cost 0, as fossil power and other limited resources are exhausted, so the generation of limited resources Means of recovery of thermal energy and cold energy to be left to use Infinite and infinite power generation amount, Gravity power storage battery drive and electric drive, various kinds of automobiles and ships various kinds of ships and full electrification homes, such as extremely cheap power generation There is a background that can be used to prevent global warming from battery-powered and electric-powered.

昭和17〜18年に理論最良エンジンの発明を決意実際は改良から始め、昭和38年岡山地方発明センターの請負で試作を開始して、自分でも試作を続けましたがエンジンの試作は非常に困難です。そこで昭和57年2月より国内大企業等多数にご協力のお願い始めましたが、日本企業等の協力が皆無で、外国唯一お願いしたクリントン大統領の協力がお願いの都度3年3回得られ、1992年米国特許5133305号、1993年米国特許5230307号、1995年米国特許5429078号の駄目発明が判明したのです。既存のエンジンに致命的な欠点が非常に多く改良発明不可能が判明し、急がば回れと1997年ホームページを開設して欠点を1つ改良特許出願して、2008年理論最良エンジンに到達し、元大統領の協力により例えば重力太陽熱発電により燃料費0で発電機及び熱ポンプを駆動して、無限大に近い電気及び温熱と冷熱を極端に安価製造タービン駆動可能とし、500°C以下液体金属発電で、大気圧同速度同容積仕事率を既存蒸気タービン発電の1〜2.3万倍にして、実際に実験して実験最良エンジンに移行したいのです。   Decided to invent the theoretical best engine in 1965. In fact, it began to improve and started trial production at the contract of the Okayama regional invention center in 1955, and continued trial production on its own, but trial production of the engine is very difficult. . Therefore, we started asking for a large number of large domestic companies to cooperate from February 1982. However, there is no cooperation from Japanese companies, etc. The cooperation of President Clinton who only asked foreign countries is obtained three or three times every request. The useless inventions of 1992 US Patent 5133305, 1993 US Patent 5230307 and 1995 US Patent 5429078 have been found. There are many fatal defects in the existing engine, and it turns out that it is impossible to improve the invention, and in a hurry and opens the 1997 home page, one defect patent application is filed and the 2008 theoretical best engine is reached To drive the generator and heat pump at a fuel cost of 0, for example, by gravity solar thermal power generation with the cooperation of the former president, and to enable extremely inexpensive manufacturing turbine drive for near infinite electricity and heat and cold, liquid metal below 500 ° C In power generation, I would like to make an atmospheric pressure same speed same volume work factor 1 to 23,000 times that of existing steam turbine power generation, actually experiment and shift to an experimental best engine.

米国特許第6119650号、中国特許第8818号、EU英国特許902175号、米国特許第6263664号があり、上記多数の背景技術を改良や、下記特許文献2も理論最良エンジン発明の過程の発明や、実験最良を狙う発明では、液体金属重力発電で蒸気タービン発電の1〜2.3万倍発電にする実験をしよう、太陽熱を種に重力駆動熱ポンプで無限大に近い温熱と冷熱製造の実験をしよう、液体金属重力発電で既存世界の10倍発電量にしよう、化石燃料等限りある資源の燃焼は必要最小限にして子孫に残そう、等があります。U.S. Patent No. 6119650, Chinese Patent No. 8818, EU British Patent No. 902175, and U.S. Patent No. 6263664 improve the above-mentioned many background technologies, and also the invention of the process of the invention of the theoretical best engine. In the experiment aiming at the best of experiments, we will experiment with liquid metal gravity power generation to generate power of 1 to 23,000 times of steam turbine power generation, and solar heat as a seed to experiment with near infinite heat and heat production experiments with gravity driven heat pump. Let's make it 10 times the amount of power generation of the existing world by liquid metal gravity power generation, let's minimize the burning of the limited resources such as fossil fuel and leave it to the offspring, etc.

先の出願として特願2007−179204号、特願2007−221970号、特願2007−237367号、特願2007−250348号、特願2007−265115号、特願2008−6612号、特願2008−22246号、特願2008−24656号、特願2008−28582号、特願2008−30162号、特願2008−94452号、特願2008−99870号、特願2008−125665号、特願2008−134046号、特願2008−137629号、特願2008−157556号、特願2008−158830号、特願2008−162842号、特願2008−164111号、特願2008−166907号、特願2008−169979号、特願2008−173046号、特願2008−174231号、特願2008−178700号、特願2008−179872号、特願2008−181052号、特願2008−182325号、特願2008−186795号、特願2008−188165号、特願2008−202677号、特願2008−203842号、特願2008−206632号、特願2008−209497号、特願2008−214912号、特願2008−229434号、特願2008−231842号、特願2008−243690号、特願2008−245061号、特願2008−249719号、特願2008−256006号、特願2008−266020号、特願2008−269294号、特願2008−282825号、特願2008−288411号、特願2008−290630号、特願2008−295174号、特願2008−299091号、特願2008−305951号、特願2008−319210、特願2008−327045号と、実験最良を狙う特願2009−011656号、特願2009−013856号、特願2009−015027号、特願2009−016249号、特願2009−021161号、特願2009−022247号、特願2009−023345号、特願2009−024512号、特願2009−025684号、特願2009−026989号、特願2009−028105号、特願2009−028150号、特願2009−028253号、特願2009−029406号、特願2009−029471号、特願2009−029539号、特願2009−030759号、特願2009−030865号、特願2009−030942号、特願2009−032264号、特願2009−032312号、特願2009−032378号、特願2009−033490号、特願2009−033534号、特願2009−033679号、特願2009−037263号があります。As prior applications, Japanese Patent Application Nos. 2007-179204, 2007-221970, 2007-237367, 2007-250348, 2007-265115, 2008-6612, 2008- No. 22246, Japanese Patent Application No. 2008-24656, Japanese Patent Application No. 2008-28582, Japanese Patent Application No. 2008-30162, Japanese Patent Application No. 2008-94452, Japanese Patent Application No. 2008-99870, Japanese Patent Application No. 2008-125665, Japanese Patent Application No. 2008-134046 Japanese Patent Application No. 2008-137629, Japanese Patent Application No. 2008-157556, Japanese Patent Application No. 2008-158830, Japanese Patent Application No. 2008-162842, Japanese Patent Application No. 2008-164111, Japanese Patent Application No. 2008-166907, Japanese Patent Application No. 2008-169979 Japanese Patent Application No. 2008-173046, Japanese Patent Application No. 20 8-174231, Japanese Patent Application No. 2008-178700, Japanese Patent Application No. 2008-179872, Japanese Patent Application No. 2008-181052, Japanese Patent Application No. 2008-182325, Japanese Patent Application No. 2008-18675, Japanese Patent Application No. 2008-188165, Japanese Patent Application No. 2008 -202677, Japanese Patent Application 2008-203842, Japanese Patent Application 2008-206632, Japanese Patent Application 2008-209497, Japanese Patent Application 2008-214912, Japanese Patent Application 2008-229434, Japanese Patent Application 2008-231842, Japanese Patent Application 2008- No. 243690, Japanese Patent Application No. 2008-245061, Japanese Patent Application No. 2008-249719, Japanese Patent Application No. 2008-256006, Japanese Patent Application No. 2008-266020, Japanese Patent Application No. 2008-269294, Japanese Patent Application No. 2008-282825, Japanese Patent Application No. 2008-288411 No. 2008, Japanese Patent Application No. 2008 No. 90630, Japanese Patent Application No. 2008-295174, Japanese Patent Application No. 2008-299091, Japanese Patent Application No. 2008-305951, Japanese Patent Application No. 2008-319210, Japanese Patent Application No. 2008-327045, and Japanese Patent Application No. 2009-011656 aiming at the best of experiments Japanese Patent Application No. 2009-013856, Japanese Patent Application No. 2009-015027, Japanese Patent Application No. 2009-01624, Japanese Patent Application No. 2009-021161, Japanese Patent Application No. 2009-022247, Japanese Patent Application No. 2009-023345, Japanese Patent Application No. 2009-024512, Japanese Patent Application 2009-025684, Japanese Patent Application No. 2009-026989, Japanese Patent Application No. 2009-028105, Japanese Patent Application No. 2009-028150, Japanese Patent Application No. 2009-028253, Japanese Patent Application No. 2009-029406, Japanese Patent Application No. 2009-029471, Japanese Patent Application No. 2009 -029539, Japanese Patent Application No. 20 09-030759, Japanese Patent Application No. 2009-030865, Japanese Patent Application No. 2009-0302942, Japanese Patent Application No. 2009-032264, Japanese Patent Application No. 2009-032312, Japanese Patent Application No. 2009-032378, Japanese Patent Application No. 2009-033490, Japanese Patent Application No. 2009 There are -033534, Japanese Patent Application No. 2009-033679, and Japanese Patent Application No. 2009-037263.

既存世界の火力原子力発電所では、CO2増大地球温暖化加速や海水表面温度摂氏7度上昇海域を100年で1000倍等とし、冬場に海面冷却海底に栄養分を供給していた自然現象を不可能として、植物プランクトンや海草類やサンゴ等を激減、食物連鎖により魚類の食糧激減魚類を大幅に激減人類の海中食物を限り無く減少し、旱魃や集中豪雨や台風や季節風を100年で10倍等に増大して、例えば台風や季節風を300m/秒等として陸上での食糧生産も加速度的に困難とし、人類絶滅の危険を増大のため、地球温暖化防止して人類絶滅を先送りする課題が在り、化石燃料を大量に燃焼すると地球が温暖化すると共に資源が枯渇するため、化石燃料燃焼は必要最少にして、子孫に残す課題があります。   In existing thermal power nuclear power plants in the world, accelerating CO2 global warming and increasing sea surface temperature by 7 degrees centigrade to 1000 times in 100 years in the sea area is impossible for the natural phenomenon of supplying nutrients to the sea surface cooling seabed in winter As the phytoplankton, seaweeds and corals are drastically reduced, the food chain of fish is drastically reduced by the food chain, and the number of fish in the fish is drastically reduced. For example, there is a task of preventing global warming and delaying the extinction of humanity, for example, typhoons and seasonal winds make 300m / sec etc. and food production on land also becomes difficult at an accelerating rate, and the danger of human extinction is increased. Burning a large amount of fossil fuels will cause global warming and depletion of resources, so fossil fuel combustion needs to be kept to a minimum and there are issues left for offspring.

熱製造の熱ポンプを液体金属重力タービンで駆動すると、温熱(過熱蒸気熱量等)と冷熱(圧縮空気質量等)を燃料費0で無限製造の挑戦となり、重力太陽熱発電や重力太陽熱エンジンにより、太陽熱や熱製造装置の熱ポンプにより温熱と冷熱の製造量を無限大に近付け、限りある石油資源等はCO2にせず大切な資源として必要最小限の使用とし、子子孫孫まで残すと共に地球温暖化防止して、旱魃や海面上昇や台風や季節風の巨大化を阻止し、海底に冷熱の酸素や窒素等の栄養分を供給して、植物プランクトンや海草類やサンゴや魚類等を増殖人類の食物を増大し、既存世界の10倍発電量以上として、既存世界の火力原子力発電所を全廃重力発電にし、重力発電の蓄電池駆動各種自動車類全盛や、蓄電池駆動各種船舶類全盛や電気駆動全面電化住宅全盛や工場電化全盛や温熱と冷熱利用全盛にして、海水温度上昇0やCO2排気0や燃料費0で発電し、地球温暖化防止して人類絶滅を先送りして、重力太陽熱タービン等で電気及び温熱と冷熱の製造量を無限大に近付け、温熱(圧縮空気熱量圧力)や冷熱(圧縮空気質量圧力)の需要全部に対応します。 When heat pumps are driven by liquid metal gravity turbines, thermal energy (such as superheated steam heat) and cold energy (such as compressed air mass) become the challenge of infinite production at fuel cost 0, and solar thermal power is generated by gravity solar thermal power generation and gravity solar thermal engine. And the heat pump of heat production equipment makes the production of heat and cold close to infinity, and limited oil resources etc. are used as an essential resource as an important resource without being CO2 and leaving children and grandchildren as well as preventing global warming To prevent the growth of coral reefs, sea level rise, typhoons and monsoons, and supply nutrients such as cold oxygen and nitrogen to the bottom of the sea floor to multiply phytoplankton, seaweeds, corals and fish, etc. As the power generation of 10 times or more of the existing world, the existing thermal power nuclear power plant in the existing world will be totally abolished gravity power generation, storage battery drive of gravity power generation various automotive parts, battery storage various ship types, electric drive We will generate electricity at sea water temperature rise 0, CO2 exhaust 0 and fuel cost 0 by making surface electrification house prime, factory electrification peak, heat and cold energy use peak, and prevent global warming and postpone humanity extinction, gravity solar thermal turbine etc. In the production of electricity and heat and cold close to infinity, to meet all the demand for heat (compressed air calorific pressure) and cold heat (compressed air mass pressure).

CO2排気0燃料費0海水温度上昇0の液体金属重力対向タービン8G2種類駆動と、重力のみ使用の液体金属重力対向タービン8G1種類駆動の、液体金属重力太陽熱発電回転出力発生にし、大気圧同速度同容積仕事率kg重m/秒を既存蒸気タービン発電の1〜2.3万倍発電3種類として、3種類の液体金属重力対向タービン8G駆動の液体金属重力太陽熱発電とし、圧縮空気質量排気を熱ポンプ1Gで吸引の過程で圧縮空気熱量(過熱蒸気)排気を冷却して、圧縮空気質量出力を増大し、海水温度上昇0燃料費0CO2排気0として、発電量や温熱と冷熱製造量の無限製造を狙う効果があります。   CO2 exhaust 0 fuel cost 0 sea water temperature rise 0 liquid metal gravity opposing turbine 8G 2 kinds of driving and liquid metal gravity opposing turbine 8G 1 kind driving only using gravity, liquid metal gravity solar thermal power generation rotational power generation, atmospheric pressure same speed same Volume power kg kg m / s 1 to 23,000 times power generation of existing steam turbine power generation Three types of liquid metal gravity opposing turbine 8G driven liquid metal gravity solar thermal power generation, compressed air mass exhaust heat Pump compressed air heat (superheated steam) exhaust in the process of suction with pump 1G, compressed air mass output is increased, seawater temperature rise 0 fuel cost 0 CO 2 exhaust 0, infinite production of power generation amount and heat and cold energy production amount Have the effect of

液体金属重力対向タービン8Gの説明図(実施例1)Explanatory drawing of liquid metal gravity opposing turbine 8G (Example 1) 液体金属重力対向熱量タービン8G質量タービン8Gの説明図(実施例2)Explanatory drawing of the liquid metal gravity opposing heat quantity turbine 8G mass turbine 8G (Example 2) 太陽光加熱器2の説明図(実施例3)Explanatory drawing of the sunlight heater 2 (Example 3) 太陽熱増大吊橋2bの説明図(実施例4)Explanatory drawing of the solar heat increase suspension bridge 2b (Example 4)

発明の実施の形態や実施例を、図面を参照して説明するが、実施形態や実施例と既説明とその構成が略同じ部分には、同一の名称又は符号を付して、重複説明はできるだけ省略し、特徴的な部分や説明不足部分は、順次追加重複説明する。又非常に難解な脳内理論最良エンジン発明のためと、意図する所及び予想を具体的に明快に説明するため、アイディアを仮説数字で説明するが、正解は実験数字として理論最良エンジンの仮説数字に限定しません。最良と思われるアイディアを多数の用途で重複説明し、用途に合せてアイディアを選択使用して、請求項では多用途に合せて選択使用するため千変万化し、理論最良エンジンから順次実験最良エンジンに移行実用化します。   The embodiments and examples of the invention will be described with reference to the drawings, but the same names and symbols are given to parts substantially the same as the ones in the embodiments and examples described above. It will be omitted as much as possible, and the characteristic parts and the inexplicable parts will be sequentially added and explained. In addition, although the idea is explained with hypothesized numbers in order to clearly explain the intended purpose and prediction specifically for the extremely difficult brain theory best engine invention, the correct answer is the experimental number of the theoretical best engine as the experimental number. Not limited to The idea that seems to be the best is redundantly described in many applications, and the idea is selected and used according to the application, and the claim is converted into a variety for selection and use according to the versatility, and the theoretical best engine is sequentially shifted to the experimental best engine Make it practical.

図1の液体金属重力発電では、保温装置を具備した液体金属重力対向タービン8Gを、断熱保温したタービン外箱77a内に1〜120段等垂直に多段に設けて、図2水平軸16Aにより水平に1〜12台に増大重量を支える推力軸受80aや軸受80を設け、液体金属重力対向タービン8G駆動の過程では、タービン外箱内保温装置付増大球上昇装置2Fにより、合金を含む液体金属2Eや資源量不足では水を最上部に上昇保存し、を開放出力増大球2E兼衝撃低減手段2Gの液体金属2Eを、液体金属噴射ポンプ6Lで400MPa等で噴射して、液体金属重力対向タービン8Gを駆動し、対向保温タービン水平軸16A間に同期歯車55を設け、水平軸16Aに図2発電機1や熱ポンプ1G圧縮熱回収器2Cを具備駆動して、燃料費0液体金属の重力で発電量や温熱と冷熱製造量無限増大に挑戦する、液体金属重力対向タービン8Gによる地球温暖化防止発電にします。   In the liquid metal gravity power generation shown in FIG. 1, a liquid metal gravity opposing turbine 8G equipped with a heat retention device is provided vertically in multiple stages such as 1 to 120 stages in a thermally insulated turbine outer box 77a, and horizontally by the horizontal axis 16A in FIG. The thrust bearing 80a and the bearing 80 supporting the increased weight are provided in 1 to 12 units, and in the process of driving the liquid metal gravity opposing turbine 8G, the liquid metal 2E including the alloy by the expansion ball lifting device 2F with the heat retaining device in the turbine outer box When the amount of resources is insufficient, water is raised at the top and stored, and the liquid metal 2E of the open output increase ball 2E and the shock reduction means 2G is injected by the liquid metal injection pump 6L at 400 MPa etc. The synchronous gear 55 is provided between the opposed heat retention turbine horizontal shaft 16A, and the horizontal shaft 16A is equipped with the generator 1 and the heat pump 1G compression heat recovery device 2C shown in FIG. Challenge gravity of the body metal power generation amount and the heat and cold production volume infinitely increased, and the global warming power generation by the liquid metal gravity opposing turbine 8G.

液体金属重力対向タービン8Gには、重量を支える推力軸受80aや軸受80や液体金属を加速する重力加速部1gを設け、発電機1や熱ポンプ1Gを断熱保温したタービン外箱77aの外で駆動し、液体金属重力対向タービン8Gを、合金を含む液体金属噴射ポンプ6Lの噴射速度を重力加速度加速で駆動して、重力加速度により液体金属の最高速度とし、大気圧同速度同容積仕事率kg重m/秒を既存蒸気タービン発電の1〜2.3万倍発電量にして、既存タービン翼断面積の2〜26倍断面積にしたタービン翼断面4Xに噴射し、強度増大大型翼面の転がり接触回転出力発生をタービン翼全部の1/10前後として、排気の過程では空気抽出器51と水復水器2aと冷熱復水器2Hにより真空とし、液体金属は保温装置付増大球上昇装置2Fで最上部に上昇保存使用として、海水温度上昇0CO2排気0燃料費0の発電にし、液体金属が不足の場合は水を使用加熱タービン駆動として、既存火力原子力発電量を0にする地球温暖化防止発電にします。 The liquid metal gravity opposing turbine 8G is provided with a thrust bearing 80a supporting weight, a bearing 80, and a gravity accelerating portion 1g for accelerating liquid metal, and driven outside the turbine outer box 77a heat insulated and maintained by the generator 1 and the heat pump 1G. The liquid metal gravity opposing turbine 8G is driven by the acceleration of gravity acceleration of the injection speed of the liquid metal injection pump 6L containing the alloy to make the maximum speed of the liquid metal by the gravity acceleration Make the power generation amount of 1 to 23,000 times that of the existing steam turbine power generation and inject it to the turbine blade cross section 4X which is 2 to 26 times the cross sectional area of the existing turbine blade The contact rotary power generation is made about 1/10 of the whole turbine blade, and in the process of exhausting, the air extractor 51, the water condenser 2a and the cold heat condenser 2H are vacuumed and Global warming to the existing thermal power nuclear power generation amount 0 as a heating turbine drive using water if there is a shortage of liquid metal as a sea water temperature rise 0 CO 2 exhaust 0 fuel cost 0 generation as storage use at the top in 2F Prevent generation.

図2の図1側面図液体金属重力熱量発電と液体金属重力質量発電2種類発電では、保温装置を具備した液体金属重力対向熱量タービン8Gと液体金属重力対向質量タービン8Gを、夫々断熱保温したタービン外箱77a内に1〜120段等垂直に多段に設けて、水平軸16Aにより水平に1〜12台に増大重量を支える推力軸受80aや軸受80を設け、液体金属重力対向熱量タービン8Gと液体金属重力対向質量タービン8G駆動の過程では、タービン外箱内保温装置付増大球上昇装置2Fにより、合金を含む液体金属2Eを最上部に上昇保存し、出力増大球2E兼衝撃低減手段2Gの液体金属2Eを、液体金属噴射ポンプ6Lで400MPa等噴射して、過熱蒸気制御弁25開放、圧縮空気28a熱量の過熱蒸気50で加速液体金属重力対向熱量タービン8Gを駆動し、圧縮空気28a質量で加速液体金属重力対向質量タービン8Gを駆動して、対向保温タービン水平軸16A間に同期歯車55を設け、水平軸16Aに発電機1や熱ポンプ1G圧縮熱回収器2Cを具備駆動して、燃料費0液体金属の重力と太陽熱で発電量や温熱と冷熱製造量無限増大に挑戦する、液体金属重力対向質量タービン8Gと液体金属重力対向熱量タービン8Gによる地球温暖化防止発電にします。   In FIG. 1 side view of FIG. 2, in liquid metal gravity calorific power generation and liquid metal gravity mass power generation two types of power generation, the heat metal thermally opposed heat turbine 8G and liquid metal gravity opposed mass turbine 8G equipped with a heat retention device respectively A thrust bearing 80a and a bearing 80 are provided in the outer box 77a so as to be vertically multi-staged by 1 to 120 stages etc. and to support the increased weight horizontally from 1 to 12 by the horizontal shaft 16A. In the process of driving the metal gravity counter mass turbine 8G, the liquid metal 2E including the alloy is raised and stored at the top by the expansion ball raising device 2F with the heat retaining device in the turbine outer box, and the liquid of the power increase ball 2E and shock reduction means 2G The metal 2E is injected at 400 MPa etc. by the liquid metal injection pump 6L, the superheated steam control valve 25 is opened, and the superheated steam 50 of the heat of the compressed air 28a is accelerated by the superheated steam 50. The directional heat turbine 8G is driven to drive the accelerated liquid metal gravity counter mass turbine 8G by the mass of the compressed air 28a, and the synchronous gear 55 is provided between the opposing heat retaining turbine horizontal shaft 16A, and the generator 1 or heat pump is mounted on the horizontal shaft 16A. Liquid Metal Gravity Countermass Turbine 8G and Liquid Metal Gravity Countered Heat Energy Turbine Equipped with a 1G compression heat recovery unit 2C to drive power generation and thermal and cold heat production infinitely by gravity and solar heat of fuel cost 0 liquid metal We will use 8G to prevent global warming.

液体金属重力対向タービン8Gには、重量を支える推力軸受80aや軸受80や液体金属を加速する重力加速部1gを設け、発電機1や熱ポンプ1Gを断熱保温したタービン外箱77aの外で駆動し、液体金属重力対向熱量タービン8Gと液体金属重力対向質量タービン8Gを、合金を含む液体金属噴射ポンプ6Lの噴射速度を、圧縮空気熱量加速と圧縮空気制御弁24A開放圧縮空気28a質量加速で夫々駆動して、重力加速度追加により液体金属の最高速度とし、大気圧同速度同容積仕事率kg重m/秒を既存蒸気タービン発電の1〜2.3万倍に夫々して、既存タービン翼断面積の2〜26倍断面積にしたタービン翼断面4Xに噴射し、強度増大大型翼面の転がり接触回転出力発生をタービン翼全部の1/10前後として、液体金属重力対向熱量タービン8G排気の過程では、空気抽出器51と水復水器2aと冷熱復水器2Hにより真空とし、液体金属重力対向質量タービン8G排気の過程は、水銀駆動で冷熱回収量最大や高温液体金属駆動で回転出力最大水+冷熱冷却等選択可能として、液体金属は保温装置付増大球上昇装置2Fで最上部に上昇保存使用とし、海水温度上昇0CO2排気0燃料費0の発電にし、既存火力原子力発電量を0にする地球温暖化防止発電にします。 The liquid metal gravity opposing turbine 8G is provided with a thrust bearing 80a supporting weight, a bearing 80, and a gravity accelerating portion 1g for accelerating liquid metal, and driven outside the turbine outer box 77a heat insulated and maintained by the generator 1 and the heat pump 1G. The liquid metal gravity counteracting heat turbine 8G and the liquid metal gravity counteracting mass turbine 8G, the injection speed of the liquid metal jet pump 6L containing the alloy, compressed air heat acceleration and compressed air control valve 24A open compressed air 28a mass acceleration respectively Drive the maximum speed of liquid metal by adding gravity acceleration, and equal atmospheric pressure same speed work volume kg weight m / sec to 1 to 23,000 times of existing steam turbine power generation respectively, cut existing turbine blade Liquid metal weight is generated by injecting to the turbine blade cross section 4X which is 2 to 26 times the area of the area, and making the rolling contact rotational power generation of the large-sized blade surface about 1/10 of all the turbine blades. In the process of the opposing heat energy turbine 8G exhaust, vacuum is made by the air extractor 51, the water condenser 2a and the cold heat condenser 2H, and the process of the liquid metal gravity opposing mass turbine 8G exhausting is mercury driven maximum cold heat recovery amount or high temperature As liquid metal drive, rotation output maximum water + cold cooling etc. can be selected, liquid metal is considered as rising storage use at the top with increase ball raising device 2F with heat retention device, seawater temperature rise 0 CO 2 exhaust 0 fuel cost 0 power generation, existing We will use global warming prevention power generation to reduce the amount of thermal power generation to zero.

図3の太陽光加熱器2は各種水面を利用し、地球最大熱量の太陽光を長レンズ2dで直線状に集めて熱吸収材2B温度を500度等として、長レンズ2dの幅を10m等に増大吸入空気路28A空気28a温度を燃料費0で上昇し、1日で3日分温度上昇する等として、既存のレンズ断面全部を選択使用可能とし、選択したレンズ断面を直線状に延長して太陽光を直線状に集光して、レンズ材質全部を選択使用可能とし、発泡プラスチック等の断熱材2cを半筒形外箱77Bで囲って円筒等の長大な筒を設けて、その中に耐熱材2Aを設けて太陽熱で高温にする板状熱吸収材2Bで空気28aを加熱し、上部に複数等の幅広長大な長レンズ2dを継手80A+締付具80Bで密封真空断熱可能にして、長手方向には継手80Aで延長可能にし、180度方向転換の場合はU型空気管で接続並行に設けて、水上で東から西に180度回転太陽光と直角にする太陽光加熱器2とし、更に傾斜して太陽光に2方向直角維持回転する装置として、空気28aを最も効率良く加熱します。   The sunlight heater 2 shown in FIG. 3 utilizes various water surfaces and collects sunlight of the maximum amount of heat of the earth in a straight line by the long lens 2d to make the heat absorbing material 2B temperature 500 degrees etc. The width of the long lens 2d is 10m etc. Increase intake air path 28A air 28a temperature at fuel cost 0, increase temperature by 3 days in 1 day etc., make it possible to select and use all the existing lens cross sections, and linearly extend the selected lens cross sections The solar light is collected in a straight line so that all lens materials can be selected and used, and a heat insulating material 2c such as foamed plastic is enclosed by a semi-cylindrical outer box 77B to provide a long cylinder such as a cylinder. Heat the air 28a with a plate-like heat-absorbing material 2B which is heat-resistant by providing a heat-resistant material 2A and heats it to high temperature by solar heat, and vacuum heat insulation is possible with multiple wide long lenses 2d such as a plurality of upper parts sealed with a joint 80A + fastener 80B. , Can be extended by the joint 80A in the longitudinal direction In the case of 180-degree change of direction, the U-shaped air pipes are connected in parallel, and the sunlight heater 2 is made perpendicular to the sunlight rotating 180 degrees from east to west on the water. As a maintenance rotating device, air 28a is heated most efficiently.

図2多数の熱ポンプ1Gにより吸入圧縮800〜1200度にし、圧縮熱回収器2Cより別の空気28aを500度等に加熱して、多数の熱ポンプ1Gにより吸入圧縮800〜1200度にし、複数回熱回収500度前後にして、最適温度24〜400MPa圧縮空気28a質量+500度前後24〜400MPa過熱蒸気50熱量に分割保存し、夫々で液体金属重力対向質量タービン8Gと液体金属重力対向熱量タービン8Gを駆動して、発電量と圧縮熱回収器2Cにより温熱や冷熱量の無限製造に燃料費0で挑戦し、圧縮空気熱量出力+圧縮空気質量出力で利用する実験をし、各種用途に使用して、化石燃料等の限りある資源を燃焼CO2にする行為を僅少にし、地球温暖化防止して限りある資源を子子孫孫まで残して、冷熱も最大限利用して残りを酸素や窒素等の栄養分として海底に供給し、植物プランクトンや海草類やサンゴや魚類等を増殖人類の食物を増大して、既存火力原子力発電の海面温度7度上昇やCO2排気増大を逆転し、海面温度上昇0CO2排気0燃料費0で地球温暖化防止して、旱魃や集中豪雨や海面上昇や台風や季節風の巨大化を阻止します。 Fig. 2 Multiple heat pumps 1G make suction and compression 800 to 1,200 degrees, separate heat air 28a from the compression heat recovery unit 2C is heated to 500 degrees, etc., and multiple heat pumps 1G make suction and compression 800 to 1,200 degrees, Circulating heat recovery around 500 degrees, optimal temperature 24-400MPa compressed air 28a mass + 500 degrees around 24-400MPa superheated steam divided into 50 calories and stored separately, each with liquid metal gravity counter mass turbine 8G and liquid metal gravity counter calorie turbine 8G The power generation amount and compression heat recovery machine 2C challenge the infinite production of heat and cold energy with 0 fuel cost, and experiment to use with compressed air heat output + compressed air mass output, used for various applications In order to prevent CO2 emissions from burning CO2 by limited resources such as fossil fuels, the limited resources for children and descendants are limited, and cold heat is also maximized. Supply the rest to the bottom of the ocean as nutrients such as oxygen and nitrogen, and increase phytoplankton, seaweeds, corals and fish, increase human food, increase the sea surface temperature of existing thermal power plants by 7 ° C, and increase CO2 emissions. Reverse the sea surface temperature rise 0 CO 2 exhaust 0 fuel cost 0 to prevent global warming, to prevent flooding, torrential rain, sea level rise, typhoon and huge of monsoon wind.

図4の太陽熱増大吊橋2bは各種陸上を利用前記と略同様に半円形を矩形に構成し、増設時は複数を更に幅方向に締付具80Bで締付密封して、太陽光と直角に傾斜可能に吊具左2f吊具右2gの最上部と左右を上下に移動し、下部を移動回転して太陽熱増大吊橋2bを太陽光の移動方向に合せ回転2方向常時直角受光として、地球最大熱量の太陽光を長レンズ2dで直線状に集光し、空気28aを加熱する装置の長レンズ2dの幅を10m等に増大して、板状熱吸収材2B温度を500度等として吸入空気路28A空気28a温度を燃料費0で上昇し、断熱材2cを矩形外箱77Bで囲って長大な箱を設けて、その中に耐熱材2Aを設けて太陽熱で高温にする板状熱吸収材2B具備空気28aを加熱し、上部に複数等の幅広長大な長レンズ2dを継手80A+締付具80Bで密封真空断熱可能にして、長手方向には継手80Aで延長可能にし、180度方向転換の場合は吸入空気路28AをU型管で接続複数の吸入空気路を並行にして、陸上で東向きから西向きに180度回転移動傾斜し、太陽熱増大吊橋2bは太陽光に2方向直角維持回転傾斜する装置として、空気28aを最も効率良く加熱します。   The solar heat augmentation suspension bridge 2b shown in FIG. 4 uses a variety of lands and forms a semicircular rectangular shape in the same manner as the above, and at the time of extension, plurals are further tightened and sealed in the width direction with fasteners 80B. Vertically move the upper part and left and right of the hanging tool left 2f hanging tool right 2g up and down, move and rotate the lower part to align the solar heat augmentation suspension bridge 2b with the moving direction of sunlight as the rotating two directions always right angle reception The amount of sunlight is linearly collected by the long lens 2d, and the width of the long lens 2d of the apparatus for heating the air 28a is increased to 10 m and the plate-like heat absorbing material 2B temperature is set to 500 degrees etc. A plate-like heat absorbing material which raises the temperature of the passage 28A air 28a at a fuel cost 0, encloses the heat insulating material 2c with a rectangular outer box 77B to provide a long box, and provides the heat resistant material 2A therein to make the temperature high by solar heat 2B equipped air 28a is heated, a plurality of wide wide long large lenses such as the upper part (d) can be sealed and vacuum-insulated by joint 80A + fastener 80B, and can be extended by joint 80A in the longitudinal direction, and in the case of a 180 ° turn, the suction air paths 28A are connected by U-shaped pipes Parallel to this, it is 180 degrees on the land moving from east to west, and the solar thermal suspension bridge 2b is a device that rotates and inclines in two directions perpendicular to sunlight, and heats the air 28a most efficiently.

図2多数の熱ポンプ1Gにより太陽光加熱空気28aを吸入圧縮800〜1200度にし、圧縮熱回収器2Cにより別の空気28aを500度等に加熱して、多数の熱ポンプ1Gにより吸入圧縮800〜1200度にし、複数回圧縮熱回収500度前後に複数回冷却して、圧縮空気28a熱量+圧縮空気28a質量に分割保存し、夫々で液体金属重力対向質量タービン8Gと液体金属重力対向熱量タービン8Gを駆動して、発電量と圧縮熱回収器2Cにより温熱や冷熱量の無限製造に燃料費0で挑戦し、圧縮空気熱量出力+圧縮空気質量出力で利用する実験をし、各種用途に実験使用等として使用して、化石燃料等の限りある資源を燃焼CO2にする行為を僅少にし、地球温暖化防止して限りある資源を子子孫孫まで残して、冷熱も最大限利用して残りを酸素や窒素等の栄養分として海底に供給し、植物プランクトンや海草類やサンゴや魚類等を増殖人類の食物を増大して、既存火力原子力発電の海面温度7度上昇やCO2排気増大を逆転し、海面温度上昇0CO2排気0燃料費0で地球温暖化防止して、旱魃や集中豪雨や海面上昇や台風や季節風の巨大化を阻止します。 Fig. 2 A large number of heat pumps 1G make the solar heating air 28a suctioned and compressed 800-1200 degrees, another air 28a heated by the compression heat recovery unit 2C to 500 degrees etc., a large number of heat pumps 1G suctioned 800 Heat to around 1200 degrees and cool several times around compression heat recovery around 500 degrees several times, divide and store in compressed air 28a heat quantity + compressed air 28 a mass, liquid metal gravity counter mass turbine 8G and liquid metal gravity counter heat turbine in each Drive 8G, and challenge the infinite production of heat and cold energy with power generation amount and compression heat recovery machine 2C with 0 fuel cost, experiment using compressed air heat output + compressed air mass output, experiment for various applications We use it as a use etc., and make the limited resources such as fossil fuel burning CO2 little, leave the limited resources to the offspring and grandchildren to prevent the global warming, the cold heat is also the maximum benefit Supply the rest to the bottom of the ocean as nutrients such as oxygen and nitrogen, and increase phytoplankton, seaweeds, corals and fish, increase human food, increase the sea surface temperature of existing thermal power plants by 7 ° C, and increase CO2 emissions. Reverse the sea surface temperature rise 0 CO 2 exhaust 0 fuel cost 0 to prevent global warming, to prevent flooding, torrential rain, sea level rise, typhoon and huge of monsoon wind.

海水温度上昇0CO2排気0燃料費0の、理論最良エンジン液体金属重力太陽熱発電により、既存世界発電量の10倍発電量として既存火力原子力発電を全廃し、安価な液体金属重力太陽熱発電蓄電池駆動の各種自動車類全盛や各種船舶類全盛や、電気使用の全面電化住宅全盛や工場電化全盛等にして、理論最良エンジンから実験結果最良エンジンに移行し、地球温暖化防止して人類絶滅を先送りする可能性があります。   Seawater temperature rise 0 CO 2 exhaust 0 fuel cost 0 theory, the best engine liquid metal gravity solar thermal power generation abolished existing thermal power nuclear power generation as 10 times the existing world power generation amount, all kinds of inexpensive liquid metal gravity solar thermal power storage battery driven There is a possibility to shift from theoretical best engine to experimental result best engine to prevent global warming and postpone humanity extinction, for example in the heyday of automobiles, the heyday of various ships, the heyday of full electrification housing using electricity, and the heyday of factories. there is.

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

Claims (5000)

タービン翼断面(4A)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 2 to 26 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + increase ball rise device (2F) temperature management respectively Use of water and liquid metal rising + preservation of gravity + addition of gravity acceleration vertically downward + acceleration of water in a vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase water temperature rise with water raising device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase water temperature rise with water raising device (2F) respectively And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase water temperature rise with water raising device (2F) respectively And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase water temperature rise with water raising device (2F) And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating mercury vertically downward by providing a turbine blade cross section (4F) with 9 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1以上設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating mercury vertically downward by installing one or more axial-horizontally one or more liquid metal gravity counteracting turbines of 10 times the turbine blade cross-section (4A) + three types of liquid metal gravity opposing turbines Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating mercury vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines + driving of liquid metal gravity opposing turbines of 11 times the turbine blade cross section (4B) + increasing sphere lifter (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the mercury vertically downward by arranging the turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generating turbine or generator axially horizontally 3 (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating mercury vertically downward by providing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 4 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the mercury vertically downward by providing a turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally horizontally to increase mercury (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the mercury vertically downward by providing a turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the mercury vertically downward by providing a turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generating turbine or generator 7 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the mercury vertically downward by providing a turbine blade cross section (4B) 17 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 8 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the mercury vertically downward by providing a turbine blade cross section (4C) 18 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontal 9 (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 10 axially horizontally Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 20 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 11 horizontally in the axial direction Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4F) 21 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) with 22 types of liquid metal gravity opposing turbines 3 types driving + liquid metal gravity power generating turbine or generator 1 horizontally in the axial direction To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4B) 23 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine and generator axially horizontally 2 To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 24 times as large as liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generating turbine or generator axially horizontally 3 Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 4 horizontally in axial direction Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 5 horizontal axial direction liquid metal gravity opposing turbine 3 types + liquid metal gravitational power generation turbine or generator with twice the turbine blade cross section (4E) + various battery drive Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by arranging the turbine blade section (4F) 3 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontally 6 Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 4 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine and generator 7 horizontally in the axial direction Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 5 times as many liquid metal gravity opposing turbines 3 types driven + liquid metal gravity power generation turbine or generator axially horizontally 8 Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 6 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator axially horizontal 9 Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 7 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 8 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 11 horizontally in the axial direction Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross-section (4F) 9 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine and generator 12 horizontally in axial direction + various storage battery drive Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross-section (4A) with 10 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing two axial and horizontal liquid metal gravity counteracting turbines + three types of liquid metal gravity opposing turbines with 11 times the blade cross section (4B) To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) with 12 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generating turbine or generator axially horizontally 3 To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by arranging the turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types + driving liquid metal gravity power generation turbine or generator axially horizontally + storage battery driving various To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4E) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally in axial direction + various storage battery drive To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4F) 15 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 axially horizontally To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction + various storage battery drive To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 17 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4B) + liquid metal gravity power generation turbine and generator axially horizontally 8 To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontal 9 To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 10 axially horizontally To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 20 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 11 horizontally in the axial direction To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4F) 21 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) with 22 types of liquid metal gravity opposing turbines 3 types driving + liquid metal gravity power generating turbine or generator 1 horizontally in the axial direction To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4B) 23 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine and generator axially horizontally 2 To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 24 times as large as liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generating turbine or generator axially horizontally 3 To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 4 horizontally in axial direction A variety of energy storage cycle combined engines with power generation methods that use temperature control water and liquid metal to rise, store and use gravity + add gravity acceleration vertically, by making the ship class flourish + increase ball lift device (2F) respectively. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 5 horizontal axial direction liquid metal gravity opposing turbine 3 types + liquid metal gravitational power generation turbine or generator with twice the turbine blade cross section (4E) + various battery drive A variety of energy storage cycle combined engines with power generation methods that use temperature control water and liquid metal to rise, store and use gravity + add gravity acceleration vertically, by making the ship class flourish + increase ball lift device (2F) respectively. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by arranging the turbine blade section (4F) 3 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontally 6 A variety of energy storage cycle combined engines with power generation methods that use temperature control water and liquid metal to rise, store and use gravity + add gravity acceleration vertically, by making the ship class flourish + increase ball lift device (2F) respectively. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 4 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine and generator 7 horizontally in the axial direction A variety of energy storage cycle combined engines with power generation methods that use temperature control water and liquid metal to rise, store and use gravity + add gravity acceleration vertically, by making the ship class flourish + increase ball lift device (2F) respectively. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 5 times as many liquid metal gravity opposing turbines 3 types driven + liquid metal gravity power generation turbine or generator axially horizontally 8 A variety of energy storage cycle combined engines with power generation methods that use temperature control water and liquid metal to rise, store and use gravity + add gravity acceleration vertically, by making the ship class flourish + increase ball lift device (2F) respectively. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4C) 6 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction (2F) Increase in drop + increase in ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use gravity + add gravity acceleration vertically downward + accelerate water direction to increase power generation Various energy conservation cycle union engine. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4D) 7 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction (2F) Increase in drop + increase in ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use gravity + add gravity acceleration vertically downward + accelerate water direction to increase power generation Various energy conservation cycle union engine. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4E) 8 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 11 axially horizontally (2F) Increase the drop + increase the ball and raise the temperature control water and liquid metal respectively with the rising ball lifter (2F) + add gravity acceleration vertically accelerate + accelerate the water as vacuum rolling direction rolling contact method with power generation increase method Various energy conservation cycle coalition agencies. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4F) with 9 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine and generator 12 horizontally in the axial direction (2F) Increase the drop + increase the ball and raise the temperature control water and liquid metal respectively with the rising ball lifter (2F) + add gravity acceleration vertically accelerate + accelerate the water as vacuum rolling direction rolling contact method with power generation increase method Various energy conservation cycle coalition agencies. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4A) 10 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction (2F) Drop increase + increase Spherical lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically accelerate + accelerate liquid metal to increase power output Various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing the turbine blade section (4B) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator 2 horizontally in axial direction + increasing sphere rise Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 3 horizontally horizontally in axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 15 times liquid metal gravity opposed turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+出力増大球(2E)を加速する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility equipment method to make the turbine blade about 1/10 + power increasing sphere (2E) accelerate + increasing sphere rising Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+出力増大球(2E)を加速する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   17 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4B) + liquid metal gravity generation power generation power generation generating facility generating blade about 1/10 + power increasing sphere (2E) to accelerate power increase sphere (2E) + increase sphere rise Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+出力増大球(2E)を加速する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   18x liquid metal gravity opposing turbine 3 types of turbine blade cross section (4C) + liquid metal gravity generating power generation generation facility equipment method to make the turbine blade about 1/10 + power increasing sphere (2E) to accelerate + increasing sphere rising Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+出力増大球(2E)を加速する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   19-fold liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity generating power generation generation facility equipment method to make the turbine blade about 1/10 + power increasing ball (2E) to accelerate + increasing ball rising Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+出力増大球(2E)を加速する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   A method to make the turbine blade cross section (4E) 20 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation output generation turbine blade about 1/10 around + power increase sphere (2E) to accelerate + increase sphere rise Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を加速タービン駆動する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4F) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction 2E) Drive the acceleration turbine + Increase the temperature control water and liquid metal respectively by using the increase ball lifter (2F) + Add gravity acceleration Vertically accelerate downward + Accelerate the water direction to increase power generation Various energy conservation cycle coalition agencies. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を加速タービン駆動する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4A) 22 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 8 2E) Drive the acceleration turbine + Increase the temperature control water and liquid metal respectively by using the increase ball lifter (2F) + Add gravity acceleration Vertically accelerate downward + Accelerate the water direction to increase power generation Various energy conservation cycle coalition agencies. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を加速タービン駆動する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4B) 23 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction 2E) Drive the acceleration turbine + Increase the temperature control water and liquid metal respectively by using the increase ball lifter (2F) + Add gravity acceleration vertically downward + accelerate the water as vacuum rolling direction rolling contact method And various energy conservation cycle coalition agencies. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を加速タービン駆動する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade section (4C) 24 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontal 10 2E) Drive the acceleration turbine + Increase the temperature control water and liquid metal respectively by using the increase ball lifter (2F) + Add gravity acceleration vertically downward + accelerate the water as vacuum rolling direction rolling contact method And various energy conservation cycle coalition agencies. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を加速タービン駆動する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4D) 25 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 11 horizontally in the axial direction 2E) Drive the acceleration turbine + Increase the temperature control water and liquid metal respectively by using the increase ball lifter (2F) + Add gravitational acceleration Vertically accelerate downward + Accelerate the liquid metal to increase power output Various energy conservation cycle union engine. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing 12 horizontal liquid metal gravity counteracting turbines + liquid metal gravity power generation turbine or generator with axial blade cross section (4E) twice as large as blade cross section (4E) Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 3 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing two axial and horizontal liquid metal gravity counteracting turbines + four types of liquid metal gravity opposing turbines with four times the blade cross-section (4A) + liquid metal gravity power generation turbine or generator Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross-section (4B) 5 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator axially horizontally 3 Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 4 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4C) + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various car kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade section (4C) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally in axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 8 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility installation method to make the turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   18 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4C) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   19 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity generation power generation power generation generating method of turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   21x liquid metal gravity opposing turbine 3 types of turbine blade cross section (4F) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature control with increasing ball lift device (2F) And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4A) with 22 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4B) 23 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator 11 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4C) 24 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator 12 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4D) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 2 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4E) + liquid metal gravity power generation turbine and generator axially horizontally 2 (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 3 types of liquid metal gravity opposing turbine 3 types of turbine blade cross section (4F) + liquid metal gravity power generation turbine and generator axially horizontally 3 Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing 4 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4A) + liquid metal gravity power generation turbine and generator axially horizontally 4 Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate liquid metal vertically downward by providing 5 times the liquid metal gravity countering turbine 3 types of turbine blade cross section (4B) + liquid metal gravity power generation turbine or generator axially horizontally 5 Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 6 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4C) + liquid metal gravity power generation turbine and generator axially horizontally 6 Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 7 times liquid metal gravity countering turbine three types of turbine blade cross section (4D) + liquid metal gravity power generation turbine and generator axially horizontally 7 Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various car kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 8 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4F) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 10 horizontally in axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4A) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 11 axially horizontally Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 17 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4B) + liquid metal gravity power generation turbine and generator axially horizontally 12 Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   18 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4C) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   19 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity generation power generation power generation generating method of turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   21x liquid metal gravity opposing turbine 3 types of turbine blade cross section (4F) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature control with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade section (4B) 23 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade section (4C) 24 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator 2 horizontally in the axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4D) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator axially horizontally 3 (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade section (4E) twice as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4F) 3 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 4 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 5 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing a turbine blade cross section (4C) 6 times as large as liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator axially horizontally 8 Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 7 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 8 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 10 horizontally in axial direction Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4E) 14 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 11 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 17 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4B) + liquid metal gravity power generation turbine and generator axially horizontally 2 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 18 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4C) + liquid metal gravity power generation turbine and generator axially horizontally 3 Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   19 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity generation power generation power generation generating method of turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   21x liquid metal gravity opposing turbine 3 types of turbine blade cross section (4F) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature control with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4C) 24 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4D) 25 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade section (4E) twice as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator axially horizontally 6 (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade section (4F) 3 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4A) 4 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 8 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 5 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing a turbine blade cross section (4C) 6 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator 10 horizontally in axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 7 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 11 axially horizontally. Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing 12 horizontal axial direction horizontal liquid metal gravity counteracting turbine + 3 types of turbine blade cross section (4E) 8 times + horizontal electric power generation turbine + generator Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 9 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in axial direction Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various motor vehicles to make up + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 15 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4F) + liquid metal gravity power generation turbine and generator axially horizontally 2 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4A) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 3 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 17 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4B) + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 18 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4C) + liquid metal gravity power generation turbine or generator 5 horizontally horizontally to increase liquid metal Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 6 Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   21x liquid metal gravity opposing turbine 3 types of turbine blade cross section (4F) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature control with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility installation method to make the turbine blade around 1/10 water for temperature control with increasing ball lift device (2F) respectively And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4D) 25 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade section (4E) twice as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 8 (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade section (4F) 3 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4A) 4 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade section (4B) 5 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 11 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing 12 horizontal liquid metal gravity counteracting turbines + liquid metal gravity power generation turbine or generator with horizontal axial direction 6 times the turbine blade cross section (4C) 6 times Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 7 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing two axial and horizontal liquid metal gravity counteracting turbines + 8 types of liquid metal gravity opposing turbines with 8 times the turbine blade cross section (4E) Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) with 9 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine and generator axially horizontally 3 Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by arranging the turbine blade cross section (4A) 10 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 4 horizontally in axial direction Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various motor vehicles to make up + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 17 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4B) + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 18 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 8 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4E) 20 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   21x liquid metal gravity opposing turbine 3 types of turbine blade cross section (4F) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature control with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility installation method to make the turbine blade around 1/10 water for temperature control with increasing ball lift device (2F) respectively And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation water turbine generating method about 1/10 around the water + temperature control water with increasing ball rising device (2F) And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 10 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + turbine blade section (4E) cross section + increasing sphere lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a liquid metal gravity opposing turbine with three types of turbine blade cross section (4F) 3 times driving + liquid metal gravity power generating turbine and generator axially horizontally 11 (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4A) 4 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4B) 5 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4C) 6 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator 2 horizontally in the axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing 7 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity power generation turbine or generator axially horizontally 3 Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing the turbine blade section (4E) 8 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 9 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade section (4A) 10 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various motor vehicles to make up + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 17 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4B) + liquid metal gravity power generation turbine and generator axially horizontally 8 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 18 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4E) 20 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 11 horizontally in axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility installation method to make the turbine blade around 1/10 water for temperature control with increasing ball lift device (2F) respectively And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation water turbine generating method about 1/10 around the water + temperature control water with increasing ball rising device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Liquid metal gravity opposing turbine 3 types of driving twice the turbine blade cross section (4E) + installation method to make the liquid metal gravity power generation output generating turbine blade about 1/10 water for temperature control respectively with increasing ball lift device (2F) And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade section (4F) 3 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4A) 4 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine and generator 2 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4B) 5 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator axially horizontally 3 (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4C) 6 times as large as liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generation turbine or generator 4 horizontally in axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4D) 7 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing a turbine blade section (4E) 8 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) with 9 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 10 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 8 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 11 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 10 horizontally in axial direction Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various motor vehicles to make up + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 11 axially horizontally Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 20 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 21 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4F) + liquid metal gravity power generation turbine or generator 2 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 22 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 3 Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility installation method to make the turbine blade around 1/10 water for temperature control with increasing ball lift device (2F) respectively And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation water turbine generating method about 1/10 around the water + temperature control water with increasing ball rising device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Liquid metal gravity opposing turbine 3 types of driving twice the turbine blade cross section (4E) + installation method to make the liquid metal gravity power generation output generating turbine blade about 1/10 water for temperature control respectively with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   3 types of liquid metal gravity opposing turbine 3 types of turbine blade cross section (4F) + installation method to make liquid metal gravity power generation output generating turbine blade about 1/10 water for temperature control with increasing ball lifter (2F) respectively And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 4 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4A) + liquid metal gravity power generation turbine and generator axially horizontally 4 (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 5 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4B) + liquid metal gravity power generation turbine and generator axially horizontally 5 (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 6 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4C) + liquid metal gravitational power generation turbine and generator axially horizontally 6 (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 7 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4D) + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 8 horizontal liquid metal gravity opposing turbines with a turbine blade cross section (4E) + liquid metal gravity power generation turbine or generator 8 horizontally horizontally to increase water (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) with 9 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator axially horizontal 9 Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 10 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4A) + liquid metal gravity power generation turbine and generator axially horizontally 10 Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing 11 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity power generation turbine and generator axially horizontal with turbine blade cross section (4B) × 11 Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 12 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4C) + liquid metal gravity power generation turbine and generator axially horizontally 12 Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generation turbine or generator 1 horizontally in axial direction Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various motor vehicles to make up + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output increasing ball (2E) vertically downward with 19 times the blade cross section (4D) + make the whole area factory electrification + Increase the temperature control water and liquid metal respectively using the increase ball lift device (2F) + save gravity + add gravity vertically downward + accelerate the water direction in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate 20 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output increasing ball (2E) vertically downward with vacuum + make the whole surface of the plant full power + + Increase the temperature control water and liquid metal respectively using the increase ball lift device (2F) + save gravity + add gravity vertically downward + accelerate the water direction in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method to attract and accelerate liquid metal gravity opposing turbine three kinds of driving + liquid metal gravity power generation output increasing ball (2E) vertically downward with 21 times of turbine blade cross section (4F) + make full surface factory electrification + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration vertically downward + accelerating the water in the vacuum direction accelerating rolling contact method Various energy storage cycle coalescing engine with increasing power generation method . タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate 22 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output increasing ball (2E) vertically downward with vacuum + make the entire surface of the plant full power + + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration vertically downward + accelerating the water in the vacuum direction accelerating rolling contact method Various energy storage cycle coalescing engine with increasing power generation method . タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output increasing ball (2E) vertically downward with vacuum 23 times the blade cross section (4B) Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity + add gravity vertical acceleration + accelerate the liquid metal to accelerate the power generation method various energy storage cycle combined engine. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate 24 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output increasing ball (2E) vertically downward with vacuum + make the entire surface of the plant full power + + Increase the temperature control water and liquid metal respectively using the increase ball lift device (2F) + save gravity + add gravity vertically downward + accelerate the water direction in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate 25 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output increasing ball (2E) vertically downward with vacuum + make the entire surface of the plant full power + + Increase the temperature control water and liquid metal respectively using the increase ball lift device (2F) + save gravity + add gravity vertically downward + accelerate the water direction in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three kinds of driving + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum double the turbine blade cross section (4E) + make the whole area factory electrification + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration vertically downward + accelerating the water in the vacuum direction accelerating rolling contact method Various energy storage cycle coalescing engine with increasing power generation method . タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three types of drive + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum 3 times the blade cross section (4F) + make the whole surface factory electrification + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration vertically downward + accelerating the water in the vacuum direction accelerating rolling contact method Various energy storage cycle coalescing engine with increasing power generation method . タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate 4 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output increasing ball (2E) vertically downward with vacuum + make the entire surface of the plant full power + + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity + add gravity vertical acceleration + accelerate the liquid metal to accelerate the power generation method various energy storage cycle combined engine. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing two axial and horizontal liquid metal gravity counteracting turbines + five types of liquid metal gravity opposing turbines + five times the turbine blade cross section (4B) Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 3 horizontal liquid metal gravity opposing turbines + 3 types of liquid metal gravitational power generation turbines and generators horizontally horizontally with a blade cross section (4C) of 6 times Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 7 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity power generation turbine and generator axially horizontally 4 To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 5 times the axial horizontal direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator with a turbine blade cross section (4E) of 8 times To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 9 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 10 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 8 Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) with 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontal 9 Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 10 axially horizontally Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontal 11 Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontally 12 Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4A) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in axial direction + various types of storage battery drive Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 17 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4B) + liquid metal gravity power generation turbine and generator 2 horizontally in axial direction + various types of storage battery drive Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 18 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4C) + liquid metal gravity power generation turbine and generator axially horizontally 3 Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 4 horizontally in axial direction + various storage battery drive Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) with 20 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4F) 21 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation turbine and generator axially horizontally 6 To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) with 22 types of liquid metal gravity opposing turbines 3 types driving + liquid metal gravity power generating turbine or generator 7 horizontally in the axial direction To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4B) 23 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontal 8 To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 24 times as large as liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontal 9 To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator 10 horizontally in axial direction To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 11 axial horizontal horizontal liquid metal gravity opposing turbines 3 types + liquid metal gravitational power generation turbine or generator with twice the turbine blade cross section (4E) To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing liquid metal gravity opposing turbine 3 types of 3 times the turbine blade cross section (4F) + liquid metal gravity power generation turbine and generator 12 horizontally in axial direction + various battery drive To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 4 times the liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing two axial and horizontal liquid metal gravity counteracting turbines + five types of liquid metal gravity opposing turbines + five times the turbine blade cross section (4B) To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 3 horizontal liquid metal gravity opposing turbines + 3 types of liquid metal gravitational power generation turbines and generators horizontally horizontally with a blade cross section (4C) of 6 times To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 7 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity power generation turbine and generator axially horizontally 4 To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 5 times the axial horizontal direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator with a turbine blade cross section (4E) of 8 times To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 9 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 10 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4b)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing the turbine blade section (4b) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 8 A variety of energy storage cycle combined engines with power generation methods that use temperature control water and liquid metal to rise, store and use gravity + add gravity acceleration vertically, by making the ship class flourish + increase ball lift device (2F) respectively. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) with 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontal 9 A variety of energy storage cycle combined engines with power generation methods that use temperature control water and liquid metal to rise, store and use gravity + add gravity acceleration vertically, by making the ship class flourish + increase ball lift device (2F) respectively. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 10 axially horizontally A variety of energy storage cycle combined engines with power generation methods that use temperature control water and liquid metal to rise, store and use gravity + add gravity acceleration vertically, by making the ship class flourish + increase ball lift device (2F) respectively. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontal 11 A variety of energy storage cycle combined engines with power generation methods that use temperature control water and liquid metal to rise, store and use gravity + add gravity acceleration vertically, by making the ship class flourish + increase ball lift device (2F) respectively. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontally 12 A variety of energy storage cycle combined engines with power generation methods that use temperature control water and liquid metal to rise, store and use gravity + add gravity acceleration vertically, by making the ship class flourish + increase ball lift device (2F) respectively. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4A) 16 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction (2F) as much as possible to raise the head + increase ball increase device (2F) temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward acceleration + water acceleration direction by vacuum direction acceleration Various energy conservation cycle united engines with increasing method. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 17 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4B) + liquid metal gravity power generation turbine and generator 2 horizontally in the axial direction + increasing ball lifter (2F) as much as possible to raise the head + increase ball increase device (2F) temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward acceleration + water acceleration direction by vacuum direction acceleration Various energy conservation cycle united engines with increasing method. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 18 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4C) + liquid metal gravity power generation turbine and generator axially horizontally 3 Increase the head as far as possible (2F) + increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + generate water as vacuum direction accelerated rolling contact Various energy conservation cycle coalescing engine with quantity increase method. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation turbine and generator axially horizontally 4 + increasing ball lifter Increase the head as far as possible (2F) + increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + generate water as vacuum direction accelerated rolling contact Various energy conservation cycle coalescing engine with quantity increase method. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4E) 20 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction Increase the head as much as possible in 2F + Increase the temperature control water and liquid metal respectively with the increase ball increase device 2F, save and use + add gravity acceleration accelerate vertically downward + accelerate liquid metal to increase power output How to make various energy conservation cycles coalesced engine. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4F) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 22 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 23 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontally 8 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 24 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator axially horizontal 9 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine and generator axially horizontally 10 Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Liquid metal gravity opposing turbine 3 types of driving twice the turbine blade cross section (4E) + installation method to make the liquid metal gravity power generation output generating turbine blade about 1/10 water for temperature control respectively with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   3 types of liquid metal gravity opposing turbine 3 types of turbine blade cross section (4F) + installation method to make liquid metal gravity power generation output generating turbine blade about 1/10 water for temperature control with increasing ball lifter (2F) respectively And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 4 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   6 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4C) + liquid metal gravity generation power generation power generation generating power generation turbine blade about 1/10 water for temperature management with increasing ball lift device (2F) And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4D) 7 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 11 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4E) 8 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4F) 9 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing two axial and horizontal liquid metal gravity counteracting turbines + 10 types of liquid metal gravity opposing turbines with a turbine blade cross section (4A) + axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4B) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 3 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing four blades of liquid metal gravity opposing turbine with three types of turbine blade cross-section (4C) 12 times + liquid metal gravity power generation turbine and generator axially horizontally. Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 14 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 6 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing a turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 8 Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 22 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontal 9 Make it to the prime + Increase the ball and lift device (2F) to raise temperature control water and liquid metal respectively Save + add gravitational acceleration Vertically accelerate downward + accelerate water direction to increase power output Preservation cycle union agency. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing a turbine blade section (4B) 23 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction Make it to the prime + Increase the ball and lift device (2F) to raise temperature control water and liquid metal respectively Save + add gravitational acceleration Vertically accelerate downward + accelerate water direction to increase power output Preservation cycle union agency. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4C) 24 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 11 axially horizontally Make it to the prime + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) Save + use the gravitational acceleration + accelerate vertically downward + various ways to increase the amount of power generation as the vacuum direction accelerated rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 12 horizontally in axial direction Make it to the prime + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) Save + use the gravitational acceleration + accelerate vertically downward + various ways to increase the amount of power generation as the vacuum direction accelerated rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 1 horizontal liquid metal gravity countering turbine 3 types + liquid metal gravity power generation turbine or generator with horizontal axial direction to double the turbine blade cross section (4E) Make it to the top + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively Save + use gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy conservation Cycle coalescing agency. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   3 types of liquid metal gravity opposing turbine 3 types of turbine blade cross section (4F) + installation method to make liquid metal gravity power generation output generating turbine blade about 1/10 water for temperature control with increasing ball lifter (2F) respectively And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 4 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   6 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4C) + liquid metal gravity generation power generation power generation generating power generation turbine blade about 1/10 water for temperature management with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   7 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity generation power generation power generation generating power generation turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4E) 8 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine and generator 2 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4F) with 9 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine and generator axially horizontally 3 (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4A) 10 times the liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4B) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 8 horizontally in axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 16 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 10 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 17 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 11 horizontally in axial direction Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 18 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) with 22 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 23 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4C) 24 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4D) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine and generator axially horizontally 2 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 3 types of liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine and generator axially horizontally to double the turbine blade cross section (4E) + increasing sphere Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate liquid metal vertically downward by providing 3 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4F) + liquid metal gravity power generation turbine and generator axially horizontally 4 Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 4 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   6 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4C) + liquid metal gravity generation power generation power generation generating power generation turbine blade about 1/10 water for temperature management with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   7 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity generation power generation power generation generating power generation turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4F) with 9 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4A) with 10 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine and generator axially horizontally 6 (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4B) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4C) 12 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 8 (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 14 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator 10 horizontally in axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 11 horizontally in axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 16 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 12 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 17 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing 18 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4C) + liquid metal gravity power generation turbine and generator 2 horizontally in the axial direction Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) with 22 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 24 times as large as liquid metal gravity opposing turbine 3 types driven + liquid metal gravity power generation turbine or generator axially horizontally 3 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator axially horizontally 4 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade section (4E) 2 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation turbine or generator 5 horizontally in axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4F) 3 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 4 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   6 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4C) + liquid metal gravity generation power generation power generation generating power generation turbine blade about 1/10 water for temperature management with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   7 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity generation power generation power generation generating power generation turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   9 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4F) + liquid metal gravity generation power generation power generation generating method of turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4A) 10 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 8 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4B) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4C) 12 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 11 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing the turbine blade section (4A) 16 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 2 horizontally in the axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 17 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4B) + liquid metal gravity power generation turbine and generator axially horizontally 3 Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing the turbine blade cross section (4C) 18 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) with 22 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator axially horizontally 6 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate liquid metal vertically downward by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity countercurrent turbine + cross section of turbine blade cross section (4E) + horizontal direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 3 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontally 8 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 4 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 5 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   6 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4C) + liquid metal gravity generation power generation power generation generating power generation turbine blade about 1/10 water for temperature management with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   7 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity generation power generation power generation generating power generation turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   9 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4F) + liquid metal gravity generation power generation power generation generating method of turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water vertically downward by providing 11 horizontal liquid metal gravity opposing turbines + driving of liquid metal gravity power generation turbine and generator axially horizontal by 11 times of turbine blade cross section (4B) + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4C) + liquid metal gravity power generation turbine or generator with axial horizontal 12 (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 2 horizontally in the axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 3 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing the turbine blade section (4A) 16 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing the turbine blade cross section (4B) 17 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 18 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 6 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 20 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 8 horizontally in axial direction Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 21 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) with 22 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various motor vehicles to make up + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4E) twice as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 3 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 4 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 11 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 5 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator 12 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 6 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   7 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity generation power generation power generation generating power generation turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   9 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4F) + liquid metal gravity generation power generation power generation generating method of turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   11 types of liquid metal gravity opposing turbine 3 types of turbine blade cross section (4B) + liquid metal gravity generation power generation power generation generating method of turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4C) with 12 times liquid metal gravity opposed turbine 3 types drive + liquid metal gravity power generation turbine and generator 2 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generating turbine or generator axially horizontally 3 (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade section (4E) 14 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator 4 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade section (4A) 16 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 17 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator 7 horizontally in axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 18 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator axially horizontally 8 Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4E) 20 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 10 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 11 axially horizontally. Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) with 22 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various motor vehicles to make up + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   2 times liquid metal gravity opposing turbine 3 types drive of turbine blade cross section (4E) + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 3 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 12 horizontally in axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 4 times the liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 5 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator 2 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate liquid metal vertically downward by providing 3 horizontal liquid metal gravity counteracting turbines + 3 types of liquid metal gravity power generation turbines and generators horizontally horizontally to increase the liquid metal gravity direction 6 times the turbine blade cross section (4C) Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 7 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity power generation turbine or generator axially horizontally 4 Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   9 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4F) + liquid metal gravity generation power generation power generation generating method of turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   11 types of liquid metal gravity opposing turbine 3 types of turbine blade cross section (4B) + liquid metal gravity generation power generation power generation generating method of turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The method to make the turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation output generation turbine blade about 1/10 around water for temperature control with increasing ball lifter (2F) respectively And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade section (4A) 16 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 8 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4B) 17 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator 9 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 18 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 10 horizontally in axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 11 horizontally in the axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 20 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 12 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 22 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator 2 horizontally in the axial direction Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various motor vehicles to make up + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   2 times liquid metal gravity opposing turbine 3 types drive of turbine blade cross section (4E) + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) tripled by 3 times liquid metal gravity opposing turbine drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by arranging the turbine blade section (4A) 4 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 3 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 5 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 5 horizontal liquid metal gravity counteracting turbines + 6 types of liquid metal gravity power generation turbines and generators axially horizontal with turbine blade cross section (4C) 6 times Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 7 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity power generation turbine and generator axially horizontally 6 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 7 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axial horizontal with turbine blade cross section (4E) 8 times Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   9 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4F) + liquid metal gravity generation power generation power generation generating method of turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   11 types of liquid metal gravity opposing turbine 3 types of turbine blade cross section (4B) + liquid metal gravity generation power generation power generation generating method of turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The method to make the turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation output generation turbine blade about 1/10 around water for temperature control with increasing ball lifter (2F) respectively And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility equipment method to make the turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 8 (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade section (4A) 16 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 17 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4B) + liquid metal gravity power generation turbine and generator axially horizontally 11 (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4C) 18 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing two axial-flowing liquid metal gravity opposing turbines of 20 times the turbine blade cross section (4E) + liquid metal gravity power generating turbine and generator axially horizontally Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by installing a turbine blade cross section (4F) 21 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine or generator 3 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) with 22 types of liquid metal gravity opposing turbines 3 types of drive + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing a turbine blade cross section (4B) 23 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 5 horizontally horizontally in the axial direction Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 24 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 25 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various motor vehicles to make up + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   2 times liquid metal gravity opposing turbine 3 types drive of turbine blade cross section (4E) + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) tripled by 3 times liquid metal gravity opposing turbine drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) quadruple liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three types of driving turbine blade cross-section (4B) 5 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three types of driving turbine blade cross-section (4C) 6 times + liquid metal gravity power generation output increasing ball (2E) vertically downward with vacuum + increasing ball lifting device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   7 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) driving + liquid metal gravity power generation output increasing sphere (2E) by suction and acceleration vertically downward with vacuum + configuration + method with increasing sphere lifting device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three types of driving turbine blade cross section (4E) 8 times + liquid metal gravity power generation output increasing sphere (2E) vertically downward with vacuum + increasing sphere lifting device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three types of driving turbine blade cross-section (4F) 9 times + liquid metal gravity power generation output increasing ball (2E) vertically downward with vacuum + increasing ball lifting device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three types of driving the turbine blade cross section (4A) 10 times + liquid metal gravity power generation output increasing ball (2E) vertically downward with vacuum + increasing ball lifting device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of driving the turbine blade cross section (4B) 11 times + liquid metal gravity power generation output increasing ball (2E) vertically downward with vacuum + increasing ball lifting device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of 12 times the turbine blade cross section (4C) + liquid metal gravity power generation output increase sphere (2E) vertically with vacuum + increase sphere lifter (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 kinds of driving 13 times the cross section of turbine blade cross section (4D) + liquid metal gravity power generation output increasing ball (2E) vertically with vacuum + increasing ball lifting device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of driving turbine cross-section (4E) 14 times + liquid metal gravity power generation output increasing ball (2E) vertically downward with vacuum + increasing ball lifting device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4F) 15 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 axially horizontally Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction + various storage battery drive Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 17 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4B) + liquid metal gravity power generation turbine and generator axially horizontally 8 To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontal 9 To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 10 axially horizontally To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 20 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 11 horizontally in the axial direction Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4F) 21 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) with 22 types of liquid metal gravity opposing turbines 3 types driving + liquid metal gravity power generating turbine or generator 1 horizontally in the axial direction Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4B) 23 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine and generator axially horizontally 2 Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 24 times as large as liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generating turbine or generator axially horizontally 3 Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 4 horizontally in axial direction Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 5 horizontal axial direction liquid metal gravity opposing turbine 3 types + liquid metal gravitational power generation turbine or generator with twice the turbine blade cross section (4E) + various battery drive Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by arranging the turbine blade section (4F) 3 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontally 6 Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 4 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine and generator 7 horizontally in the axial direction Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 5 times as many liquid metal gravity opposing turbines 3 types driven + liquid metal gravity power generation turbine or generator axially horizontally 8 Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 6 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator axially horizontal 9 To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 7 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 8 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 11 horizontally in the axial direction To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross-section (4F) 9 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine and generator 12 horizontally in axial direction + various storage battery drive To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross-section (4A) with 10 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing two axial and horizontal liquid metal gravity counteracting turbines + three types of liquid metal gravity opposing turbines with 11 times the blade cross section (4B) To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) with 12 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generating turbine or generator axially horizontally 3 To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by arranging the turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types + driving liquid metal gravity power generation turbine or generator axially horizontally + storage battery driving various To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4E) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally in axial direction + various storage battery drive To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4F) 15 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 axially horizontally To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction + various storage battery drive To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 17 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4B) + liquid metal gravity power generation turbine and generator axially horizontally 8 To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontal 9 To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 10 axially horizontally To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 20 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 11 horizontally in the axial direction To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4F) 21 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction A variety of energy storage cycle combined engines with power generation methods that use temperature control water and liquid metal to rise, store and use gravity + add gravity acceleration vertically, by making the ship class flourish + increase ball lift device (2F) respectively. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) with 22 types of liquid metal gravity opposing turbines 3 types driving + liquid metal gravity power generating turbine or generator 1 horizontally in the axial direction A variety of energy storage cycle combined engines with power generation methods that use temperature control water and liquid metal to rise, store and use gravity + add gravity acceleration vertically, by making the ship class flourish + increase ball lift device (2F) respectively. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4B) 23 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine and generator axially horizontally 2 A variety of energy storage cycle combined engines with power generation methods that use temperature control water and liquid metal to rise, store and use gravity + add gravity acceleration vertically, by making the ship class flourish + increase ball lift device (2F) respectively. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 24 times as large as liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generating turbine or generator axially horizontally 3 A variety of energy storage cycle combined engines with power generation methods that use temperature control water and liquid metal to rise, store and use gravity + add gravity acceleration vertically, by making the ship class flourish + increase ball lift device (2F) respectively. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 4 horizontally in axial direction A variety of energy storage cycle combined engines with power generation methods that use temperature control water and liquid metal to rise, store and use gravity + add gravity acceleration vertically, by making the ship class flourish + increase ball lift device (2F) respectively. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade section (4E) twice as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator 5 horizontally in the axial direction (2F) Increase in drop + increase in ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use gravity + add gravity acceleration vertically downward + accelerate water direction to increase power generation Various energy conservation cycle union engine. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade section (4F) 3 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in axial direction + increasing ball lifter (2F) Increase in drop + increase in ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use gravity + add gravity acceleration vertically downward + accelerate water direction to increase power generation Various energy conservation cycle union engine. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4A) 4 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction (2F) Increase the drop + increase the ball and raise the temperature control water and liquid metal respectively with the rising ball lifter (2F) + add gravity acceleration vertically accelerate + accelerate the water as vacuum rolling direction rolling contact method with power generation increase method Various energy conservation cycle coalition agencies. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4B) 5 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 8 (2F) Increase the drop + increase the ball and raise the temperature control water and liquid metal respectively with the rising ball lifter (2F) + add gravity acceleration vertically accelerate + accelerate the water as vacuum rolling direction rolling contact method with power generation increase method Various energy conservation cycle coalition agencies. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4C) 6 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction (2F) Drop increase + increase Spherical lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically accelerate + accelerate liquid metal to increase power output Various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 7 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 8 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 11 axially horizontally Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) with 9 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine and generator 12 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4A) 10 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing the turbine blade section (4B) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator 2 horizontally in axial direction + increasing sphere rise Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The method to make the turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation output generation turbine blade about 1/10 around water for temperature control with increasing ball lifter (2F) respectively And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility equipment method to make the turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 17 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4B) + liquid metal gravity power generation turbine and generator axially horizontally 3 (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4C) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 4 + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation turbine or generator axially horizontally 5 + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade section (4E) 20 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade section (4F) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 22 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 8 Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4B) 23 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4C) 24 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 10 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 11 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing 12 horizontal liquid metal gravity counteracting turbines + liquid metal gravity power generation turbine or generator with axial blade cross section (4E) twice as large as blade cross section (4E) Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4F) tripled by 3 times liquid metal gravity opposing turbine drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) quadruple liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4E) 8 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing two axial and horizontal liquid metal gravity counteracting turbines + three types of liquid metal gravity opposing turbines with 9 times the blade cross section (4F) Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade section (4A) 10 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator axially horizontally 3 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by arranging the turbine blade section (4B) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 4 horizontally in axial direction + increasing sphere rise Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade section (4C) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally in axial direction Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility equipment method to make the turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility installation method to make the turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4C) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontally 6 (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4E) 20 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator axially horizontally 8 (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4F) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4A) with 22 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing a turbine blade cross section (4B) 23 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 11 axially horizontally Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 24 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 12 horizontally in axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4D) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 2 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4E) + liquid metal gravity power generation turbine and generator axially horizontally 2 Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 3 types of liquid metal gravity opposing turbine 3 types of turbine blade cross section (4F) + liquid metal gravity power generation turbine and generator axially horizontally 3 Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4A) quadruple liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various car kind of prime + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing liquid metal gravity opposing turbine 3 types of 9 times the turbine blade cross section (4F) + liquid metal gravity power generation turbine and generator 4 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate liquid metal vertically downward by providing turbine blade cross section (4A) 10 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally in axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 8 Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility installation method to make the turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   18 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4C) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade section (4E) 20 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 21 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4F) + liquid metal gravity power generation turbine and generator axially horizontally 11 (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade section (4A) 22 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade section (4B) 23 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing two axial and horizontal liquid metal gravity counteracting turbines + three types of liquid metal gravity opposing turbines 24 times the turbine blade cross section (4C) Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 3 horizontally in axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 4 horizontal liquid metal gravity opposing turbines 3 types of driving + cross section of the turbine blade cross section (4E) + liquid metal gravity power generation turbine or generator axially horizontally Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 3 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 4 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 5 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various car kind of prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 10 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by arranging the turbine blade cross section (4B) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 8 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4E) 14 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 11 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility installation method to make the turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   18 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4C) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   19 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity generation power generation power generation generating method of turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade section (4E) 20 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4F) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4A) with 22 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 2 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade section (4B) 23 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator axially horizontally 3 (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4C) 24 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 25 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4D) + liquid metal gravity power generation turbine and generator axially horizontally 5 Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade section (4E) twice as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 6 horizontally in axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 3 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by arranging the turbine blade cross section (4A) 4 times as large as liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontal 8 Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 5 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 6 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various car kind of prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 11 axially horizontally Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 15 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4F) + liquid metal gravity power generation turbine and generator axially horizontally 2 Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility installation method to make the turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   18 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4C) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   19 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity generation power generation power generation generating method of turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade section (4F) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 3 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4A) with 22 types of liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine and generator axially horizontally 4 (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade section (4B) 23 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4C) 24 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4D) 25 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 8 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + turbine blade cross section (4E) cross section × 4 Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 3 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by arranging the turbine blade cross section (4A) 4 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 10 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 5 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator 11 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing 12 horizontal liquid metal gravity counteracting turbines + liquid metal gravity power generation turbine or generator with horizontal axial direction 6 times the turbine blade cross section (4C) 6 times Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 7 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various car kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 13 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine and generator 2 horizontally in axial direction + increasing sphere rise Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 3 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 15 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4F) + liquid metal gravity power generation turbine and generator axially horizontally 4 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 17 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility installation method to make the turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   18 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4C) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   19 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity generation power generation power generation generating method of turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   21x liquid metal gravity opposing turbine 3 types of turbine blade cross section (4F) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature control with increasing ball lift device (2F) And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4A) with 22 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4B) 23 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4C) 24 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontal 8 (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4D) 25 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 9 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 10 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + turbine blade section (4E) cross section + increasing sphere lifter (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4F) 3 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 11 horizontally in the axial direction Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing 12 horizontal axial direction horizontal liquid metal gravity opposing turbine 3 types of driving 4 times the turbine blade cross section (4A) + liquid metal gravity generating turbine or generator Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4B) 5 times as many liquid metal gravity opposing turbines 3 types of driving + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing two axial and horizontal liquid metal gravity counteracting turbines + 6 types of liquid metal gravity opposing turbines with 6 times the turbine blade cross section (4C) + liquid metal gravity generator Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing 7 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity power generation turbine or generator axially horizontally 3 Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 8 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various car kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 15 times liquid metal gravity opposed turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 17 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4B) + liquid metal gravity power generation turbine and generator axially horizontally 8 Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   18 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4C) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   19 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity generation power generation power generation generating method of turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   21x liquid metal gravity opposing turbine 3 types of turbine blade cross section (4F) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature control with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4B) 23 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade section (4C) 24 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4D) 25 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 11 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal axial direction horizontal liquid metal gravity opposed turbine 3 kinds of driving + double liquid metal gravitational power generation turbine or generator with twice the turbine blade cross section (4E) (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade section (4F) 3 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing two axial and horizontal liquid metal gravity counteracting turbines + four types of liquid metal gravity opposing turbines with four times the blade cross-section (4A) + liquid metal gravity power generation turbine or generator Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross-section (4B) 5 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator axially horizontally 3 Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 4 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4C) + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing 7 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity power generation turbine or generator axially horizontally 5 Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing a turbine blade section (4E) 8 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4F) 9 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 8 Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravitational acceleration Vertical acceleration downward + vacuum direction of water to accelerate power generation method Combined engine of various energy storage cycles. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the liquid metal vertically downward by providing 17 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4B) + liquid metal gravity power generation turbine and generator 10 horizontally in the axial direction Equipment (2F) temperature control water and liquid metal rise and save use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4C) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 11 axially horizontally Equipment (2F) temperature control water and liquid metal respectively rise + save using gravity + acceleration of gravity vertically downward + acceleration of liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   19 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4D) + liquid metal gravity generation power generation power generation generating method of turbine blade about 1/10 water for temperature control with increasing ball lift device (2F) respectively And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And use liquid metal rising + use gravity acceleration add vertically downward + + vacuum direction of water to increase power generation method various energy storage cycle combined engine. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   21x liquid metal gravity opposing turbine 3 types of turbine blade cross section (4F) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature control with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 22 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 23 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And use liquid metal ascend storage + gravity acceleration add vertically downward + accelerate liquid metal to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4C) 24 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator 12 horizontally in the axial direction (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4D) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase the amount of power generation. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 2 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4E) + liquid metal gravity power generation turbine and generator axially horizontally 2 (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade section (4F) 3 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 3 (2F) Temperature control water and liquid metal are raised and stored respectively + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction Various power storage cycle combined engine with power generation increase method. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 4 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4A) + liquid metal gravity power generation turbine and generator axially horizontally 4 (2F) Temperature control water and liquid metal are raised and stored respectively + addition of gravitational acceleration Vertical acceleration is accelerated downward + liquid metal is accelerated to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate liquid metal vertically downward by providing 5 times the liquid metal gravity countering turbine 3 types of turbine blade cross section (4B) + liquid metal gravity power generation turbine or generator axially horizontally 5 Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 6 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4C) + liquid metal gravity power generation turbine and generator axially horizontally 6 Make the prime + Increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 7 times liquid metal gravity countering turbine three types of turbine blade cross section (4D) + liquid metal gravity power generation turbine and generator axially horizontally 7 Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 8 horizontal liquid metal gravity counteracting turbines with turbine blade cross section (4E) + liquid metal gravity power generation turbine and generator axially horizontally 8 Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + use the gravitational acceleration Vertically downward + accelerate the water in the vacuum direction acceleration rolling contact Various energy methods to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4F) with 9 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator axially horizontal 9 Make the prime + boost ball lifter (2F) to raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4A) 10 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4B) 11 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4C) 12 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4E) 14 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various motor vehicles to make up + increase ball lift device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types + 15 times liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum with turbine head cross section (4F) with increase sphere lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three types of driving turbine blade cross section (4A) 16 times + liquid metal gravity power generation output increasing ball (2E) vertically downward with vacuum + increasing ball lifting device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   17 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4B) driving + liquid metal gravity power generation power output increasing sphere (2E) by suction vacuum acceleration vertically downward with configuration and method + increasing sphere lifting device (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The configuration and method to attract and accelerate the liquid pressure and gravity power generation output increase sphere (2E) vertically downward with 18 times liquid metal gravity opposing turbine of turbine blade section (4C) + structure + method with increase sphere lifter (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method to attract and accelerate the liquid pressure and gravity power generation output increase sphere (2E) vertically downward with 19 times liquid metal gravity opposing turbine of the turbine blade cross section (4D) + vacuum sphere lifter (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of driving 20 times the blade cross section of turbine blade section (4E) + liquid metal gravity power generation output increasing ball (2E) vertically with vacuum + increasing ball lifting device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method to attract and accelerate the liquid pressure and gravity power generation output increase sphere (2E) of the liquid metal gravity counter power turbine 3 types + 21 times of the turbine blade cross section (4F) + vacuum + lift ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three types of driving the turbine blade cross section (4A) 22 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three types of driving the turbine blade cross section (4B) × 23 + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F) Each of temperature control water and liquid metal is elevated and stored + gravity acceleration is added vertically downward + water is accelerated by rolling direction in vacuum direction. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 kinds of driving 24 times the blade cross section of turbine blade section (4C) + liquid metal gravity power generation output increasing ball (2E) vertically with vacuum + increasing ball lifting device (2F) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically and vertically accelerated + liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator 10 horizontally in axial direction Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4E)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 11 axial horizontal horizontal liquid metal gravity opposing turbines 3 types + liquid metal gravitational power generation turbine or generator with twice the turbine blade cross section (4E) Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4F)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing liquid metal gravity opposing turbine 3 types of 3 times the turbine blade cross section (4F) + liquid metal gravity power generation turbine and generator 12 horizontally in axial direction + various battery drive To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4A)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4A) 4 times the liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4B)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing two axial and horizontal liquid metal gravity counteracting turbines + five types of liquid metal gravity opposing turbines + five times the turbine blade cross section (4B) To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) and save + use gravity acceleration vertically downward + accelerate the liquid metal to increase power output Preservation cycle union agency. タービン翼断面(4C)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて白水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating white water vertically downward by providing a turbine blade cross section (4C) 6 times as large as liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generating turbine or generator axially horizontally + storage battery driven various ships Make the same kind of operation + Increase the temperature control water and liquid metal respectively by using the increase ball lifter (2F) Save + use the gravitational acceleration Vertically accelerate downward + accelerate the water direction to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4D)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4D) 7 times liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine and generator axially horizontal 4 Make the same kind of operation + Increase the temperature control water and liquid metal respectively by using the increase ball lifter (2F) Save + use the gravitational acceleration Vertically accelerate downward + accelerate the water direction to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4E)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4E) 8 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontally 5 + storage battery driven various ships Make the same kind of operation + Increase the temperature control water and liquid metal respectively by using the increase ball lifter (2F) Save + use the gravitational acceleration Vertically accelerate downward + accelerate the water direction to increase the amount of power generation Preservation cycle union agency. タービン翼断面(4F)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing a turbine blade cross section (4F) with 9 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontally 6 Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + acceleration water direction to increase power generation Various energy conservation cycle coalition agencies. タービン翼断面(4A)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water and liquid metal vertically downward by providing a turbine blade cross section (4A) 10 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + acceleration water direction to increase power generation Various energy conservation cycle coalition agencies. タービン翼断面(4B)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing a turbine blade section (4B) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 8 Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + acceleration water direction to increase power generation Various energy conservation cycle coalition agencies. タービン翼断面(4C)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water and liquid metal vertically downward by providing the turbine blade cross section (4C) 12 times the liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + acceleration water direction to increase power generation Various energy conservation cycle coalition agencies. タービン翼断面(4D)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4D) 13 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 10 axially horizontally Make the vessel vessel fuller + increase ball rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various methods Energy Conservation Cycle Coalition Agency. タービン翼断面(4E)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water and liquid metal vertically downward by providing a turbine blade cross section (4E) 14 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 11 axially horizontally Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + acceleration water direction to increase power generation Various energy conservation cycle coalition agencies. タービン翼断面(4F)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water and liquid metal vertically downward by providing a turbine blade cross section (4F) 15 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + acceleration water direction to increase power generation Various energy conservation cycle coalition agencies. タービン翼断面(4A)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて被覆鉛球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated lead ball vertically by installing a turbine blade cross section (4A) 16 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 + various battery drive various To increase the amount of power generation by raising the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle union engine. タービン翼断面(4B)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて被覆液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated liquid metal vertically by providing the turbine blade section (4B) 17 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator 2 horizontally in the axial direction Various kinds of ships are made up + temperature increasing water lifter (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + water as vacuum direction accelerated rolling contact to increase power generation method and Various energy conservation cycle coalition agencies. タービン翼断面(4C)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4C) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontal 3 Make the same kind of operation + Increase the temperature control water and liquid metal respectively by using the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + various kinds of methods to increase power generation as vacuum rolling direction rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4D)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4D) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontal 4 Make the same kind of operation + Increase the temperature control water and liquid metal respectively by using the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + various kinds of methods to increase power generation as vacuum rolling direction rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4E)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4E) with 20 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 5 horizontally horizontally + storage battery driven various ships Make the same kind of operation + Increase the temperature control water and liquid metal respectively by using the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + various kinds of methods to increase power generation as vacuum rolling direction rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4F)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4F) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontal 6 Make the same kind of operation + Increase the temperature control water and liquid metal respectively by using the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + various kinds of methods to increase power generation as vacuum rolling direction rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4A)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4A) with 22 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generating turbine or generator axially horizontally + storage battery driven various ships Make the same kind of operation + Increase the temperature control water and liquid metal respectively by using the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + various kinds of methods to increase power generation as vacuum rolling direction rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4B)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade section (4B) 23 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally + storage battery driven various ships Make the same kind of operation + Increase the temperature control water and liquid metal respectively by using the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + various kinds of methods to increase power generation as vacuum rolling direction rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4C)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4C) 24 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator axially horizontally + storage battery driven various ships Make the same kind of operation + Increase the temperature control water and liquid metal respectively by using the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + various kinds of methods to increase power generation as vacuum rolling direction rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4D)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4D) 25 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 10 Make the same kind of operation + Increase the temperature control water and liquid metal respectively by using the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + various kinds of methods to increase power generation as vacuum rolling direction rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4E)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 11 horizontal horizontal direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generating turbine or generator with 2 to 26 times the turbine blade cross section (4E) Various kinds of ships are made up + increasing ball raising device (2F) to raise temperature control water and liquid metal respectively and save + add gravitational acceleration vertically downward + accelerate liquid metal to increase power generation Energy Conservation Cycle Coalition Agency. タービン翼断面(4F)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal horizontal axial directions of liquid metal gravity opposing turbine 3 types + 2 to 26 times of liquid metal gravity counteracting turbine cross section (4F) Various kinds of ships are made up + increasing ball raising device (2F) to raise temperature control water and liquid metal respectively and save + add gravitational acceleration vertically downward + accelerate liquid metal to increase power generation Energy Conservation Cycle Coalition Agency. タービン翼断面(4A)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 1 to 26 axial liquid horizontal gravity opposing turbine 3 types + liquid metal gravitational power generation turbine or generator with horizontal axial direction of turbine blade cross section (4A) 2 to 26 Drive various vessels to full power + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output Various energy conservation cycle union engine. タービン翼断面(4B)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて被覆液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated liquid metal vertically by providing two axial and horizontal liquid metal gravity opposing turbines of 2 to 26 times the turbine blade cross section (4B) + liquid metal gravity power generation turbine or generator 2 horizontally in the axial direction Storage battery drive to make various ships go up + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save use + add gravitational acceleration vertically downward + accelerate liquid metal to increase power generation Various energy conservation cycle coalition agencies. タービン翼断面(4C)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて白水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate white water vertically downward by providing 3 horizontal liquid metal gravity opposing turbines 3 types + liquid metal gravity power generation turbine or generator with horizontal axial direction to 2 to 26 times the turbine blade cross section (4C) Various kinds of ships are made up + increasing ball raising device (2F) to raise temperature control water and liquid metal respectively and save + add gravitational acceleration vertically downward + accelerate liquid metal to increase power generation Energy Conservation Cycle Coalition Agency. タービン翼断面(4D)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4D) with 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction Various energy conservation cycle combined engines with power generation method to raise the temperature control water and liquid metal respectively and save and use + gravity acceleration downward with various vessel kindling + increase ball lift device (2F) respectively. タービン翼断面(4E)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4E) with 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction Various energy conservation cycle combined engines with power generation method to raise the temperature control water and liquid metal respectively and save and use + gravity acceleration downward with various vessel kindling + increase ball lift device (2F) respectively. タービン翼断面(4F)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing turbine blade section (4F) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in axial direction + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature and control water and liquid metal respectively and save + add gravity acceleration Power generation method to accelerate vertically downward Various energy storage cycles combined engine . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water and liquid metal vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature and control water and liquid metal respectively and save + add gravity acceleration Power generation method to accelerate vertically downward Various energy storage cycles combined engine . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature and control water and liquid metal respectively and save + add gravity acceleration Power generation method to accelerate vertically downward Various energy storage cycles combined engine . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in axial direction + Increase ball lifter (2F) with drop increase + increment ball lifter (2F) with temperature control water and liquid metal ascend storage use + add gravity acceleration vertically downward + acceleration of water by vacuum direction acceleration Various energy conservation cycle coalescing engine with quantity increase method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator Increase the drop with ball lifter (2F) + raise the temperature control water and liquid metal respectively with increase ball lifter (2F) + add gravity acceleration vertically downward + accelerate water direction to increase power generation How to make various energy conservation cycles coalesced engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing 11 horizontal horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + generator with a turbine blade cross section (4X) 2 to 26 times + Increase ball lifter (2F) with drop increase + increment ball lifter (2F) with temperature control water and liquid metal rise and save + add gravity acceleration vertically downward + water as vacuum direction accelerated rolling contact Various energy storage cycle united engines with a method to increase power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing 12 horizontal horizontal axial directions of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Increase ball lifter (2F) with drop increase + increment ball lifter (2F) with temperature control water and liquid metal rise and save + add gravity acceleration vertically downward + water as vacuum direction accelerated rolling contact Various energy storage cycle united engines with a method to increase power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて被覆鉛球を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the coated lead ball vertically by providing 1 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Slope lifter (2F), increase the drop + increase Slopeer (2F) for temperature control water and liquid metal ascend storage use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output And various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて被覆液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated liquid metal vertically by providing two axial and horizontal liquid metal gravity opposing turbines of 2 to 26 times the turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator 2 horizontally in the axial direction Increase the temperature control water and liquid metal respectively using the increase ball lift device (2F) + save gravity + add gravity vertically downward + accelerate the water direction in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 3 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 4 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water downward vertically by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 6 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity generating turbine or generator with 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise the temperature control water and liquid metal respectively use + add gravity acceleration vertically downward + accelerate the liquid metal to increase power generation method various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質のタンタル合金球を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + saving gravity + adding vertical acceleration + downward acceleration + heavy material tantalum alloy ball vacuum direction acceleration method to increase power generation method combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質の被服タンタル合金球を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + saving gravity + adding gravity acceleration vertically downward + coated heavier material Tantalum alloy ball vacuum direction acceleration method to increase power generation method Combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質のモリブデン鋼球を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + saving gravity + adding gravity acceleration vertically downward + molybdenum steel balls of heavy material vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質のモリブデン鋳鉄球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + saving gravity + adding gravity acceleration vertically downward + acceleration of heavy material molybdenum cast iron balls together with impact reduction means (2G) to increase power generation method Combined engine with various energy storage cycles. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate liquid metal in vacuum direction to increase power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate liquid metal in vacuum direction to increase power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravitational acceleration vertically downward + to accelerate liquid metal to vacuum rolling direction rolling contact method to increase power generation capacity combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravitational acceleration vertically downward + to accelerate liquid metal to vacuum rolling direction rolling contact method to increase power generation capacity combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 11 horizontal horizontal liquid metal gravity opposing turbines + 3 types of liquid metal gravity counteracting turbine + generator with a turbine blade cross section (4X) 2 to 26 times Lifting device (2F) to raise the temperature control water and liquid metal respectively use + add gravity acceleration vertically downward + accelerate the water to increase the amount of power generation combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally 12 to accelerate liquid metal vertically downward + whole surface Make the electric house flourish + increase ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravitational acceleration vertically downward + accelerate liquid metal in vacuum direction to increase power generation Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator installed horizontally horizontally 1 to accelerate liquid metal vertically downward + whole surface Make the electric house flourish + increase ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravitational acceleration vertically downward + accelerate liquid metal in vacuum direction to increase power generation Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の白液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines of 2 to 26 times the turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 2 Electrified housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save + add gravitational acceleration vertically downward + generate white liquid metal of heavy material as vacuum direction accelerated rolling contact Various energy conservation cycle coalescing engine with quantity increase method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質の液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally 3 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save + add gravitational acceleration vertically downward + generate liquid metal of heavier material as vacuum direction accelerated rolling contact Various energy conservation cycle coalescing engine with quantity increase method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の鉛合金球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally 4 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save + add gravity acceleration vertically downward + lead material ball of heavy material with shock reduction means (2G) Various energy storage cycle united engines that were accelerated to increase power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water and liquid metal are accelerated in the vacuum direction to increase power generation method Various energy storage cycles combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water and liquid metal are accelerated in the vacuum direction to increase power generation method Various energy storage cycles combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature and temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water and liquid metal are accelerated rolling contact with vacuum direction and various energy storage cycles combined engine with power generation increase method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature and temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water and liquid metal are accelerated rolling contact with vacuum direction and various energy storage cycles combined engine with power generation increase method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + the liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally in axial direction A water lifter (2F) is used to raise temperature control water and liquid metal and store it + add gravitational acceleration vertically downward + accelerate liquid metal in a vacuum direction to increase power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in axial direction A water lifter (2F) is used to raise temperature control water and liquid metal and store it + add gravitational acceleration vertically downward + accelerate liquid metal in a vacuum direction to increase power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質のタングステン鋼球を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times the turbine blade cross section (4X) Using a ball lifter (2F) to raise the temperature control water and liquid metal respectively + save and use gravity + add vertical acceleration vertically downward + tungsten steel ball of heavy material as vacuum direction accelerated rolling contact to increase power output Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質の被覆タングステン鋼球を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed horizontally horizontally 8 to accelerate liquid metal vertically downward + increase Temperature control water and liquid metal are respectively raised and stored using a ball lifter (2F) + gravity acceleration is added vertically downward accelerated + a coated tungsten steel ball of a heavier material is used as a vacuum direction accelerated rolling contact to increase power generation Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質のタンタル合金球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally 9 to accelerate liquid metal vertically downward + increase Using a ball lifter (2F) to raise the temperature control water and liquid metal respectively + add gravity acceleration vertically downward + accelerate heavy metal tantalum alloy ball together with impact reduction means (2G) to increase power generation And various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + saving gravity + adding vertical acceleration vertically downward + liquid material of heavy substance in vacuum direction acceleration method to increase power generation amount Combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal accelerated in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of gravity acceleration vertically downward + acceleration of liquid metal to increase the amount of power generation combined with various energy storage cycles combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate liquid metal in vacuum direction to increase power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 11 horizontal horizontal liquid metal gravity opposing turbines + 3 types of liquid metal gravity counteracting turbine + generator with a turbine blade cross section (4X) 2 to 26 times Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate liquid metal in vacuum direction to increase power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravitational acceleration vertically downward + to accelerate liquid metal to vacuum rolling direction rolling contact method to increase power generation capacity combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravitational acceleration vertically downward + to accelerate liquid metal to vacuum rolling direction rolling contact method to increase power generation capacity combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines + two 2 to 26 times the liquid metal gravity counteracting turbine + cross section of the turbine blade cross section (4X) Lifting device (2F) to raise the temperature control water and liquid metal respectively use + add gravity acceleration vertically downward + accelerate the liquid metal to increase power generation method various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の被覆金球を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally 3 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the weight of coated gold balls in vacuum direction to accelerate power generation amount Various energy conservation cycle united engines with increasing method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質の白液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally 4 to accelerate liquid metal vertically downward + whole surface Electrified housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save + add gravity acceleration vertically downward + white matter metal of heavier material vacuum direction to generate electricity Various energy conservation cycle coalescing engine with quantity increase method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed horizontally horizontally 5 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save + add gravity acceleration vertically downward + liquid material of heavy material as vacuum direction accelerated rolling contact Various energy conservation cycle united engines with increasing method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed horizontally horizontally in the axial direction 6 structure and method of accelerating liquid metal vertically downward + whole surface Elevate the height of the housing and increase the temperature control water and liquid metal respectively by using the increase ball lift device (2F) + add gravity acceleration vertically accelerate + accelerate liquid metal as vacuum rolling direction rolling contact and increase power generation method Various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の銀合金球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed horizontally horizontally 7 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save + add gravitational acceleration vertically downward + accelerate heavy material silver alloy balls with shock reduction means (2G) Various energy storage cycle united engines that were accelerated to increase power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water and liquid metal are accelerated in the vacuum direction to increase power generation method Various energy storage cycles combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + the liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 11 horizontal horizontal liquid metal gravity opposing turbines + 3 types of liquid metal gravity counteracting turbine + generator with a turbine blade cross section (4X) 2 to 26 times Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise the temperature control water and liquid metal respectively use + add gravity acceleration vertically downward + accelerate the liquid metal to increase power generation method various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質のモリブデン鋼球を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + saving gravity + adding vertical acceleration + downward acceleration + heavy material molybdenum steel ball vacuum direction acceleration method to increase power generation method combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal accelerated in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + saving gravity + adding gravity acceleration vertically downward + liquid material of heavy material vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の銀球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + saving gravity + adding gravity acceleration vertically downward + acceleration of heavy material silver ball together with impact reduction means (2G) to increase power generation method Combined engine with various energy storage cycles. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate liquid metal in vacuum direction to increase power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines + two 2 to 26 times the liquid metal gravity counteracting turbine + cross section of the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate liquid metal in vacuum direction to increase power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 3 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravitational acceleration vertically downward + to accelerate liquid metal to vacuum rolling direction rolling contact method to increase power generation capacity combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 4 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravitational acceleration vertically downward + to accelerate liquid metal to vacuum rolling direction rolling contact method to increase power generation capacity combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water downward vertically by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise the temperature control water and liquid metal respectively use + add gravity acceleration vertically downward + accelerate the liquid metal to increase power generation method various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の白液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed horizontally horizontally in the axial direction 6 structure and method of accelerating liquid metal vertically downward + whole surface Electrified housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + white matter metal of heavy material vacuum direction to accelerate power generation Various energy conservation cycle united engines with increasing method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質の液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed horizontally horizontally 7 to accelerate liquid metal vertically downward + whole surface Electrified housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save + add gravity acceleration vertically downward + increase the weight of liquid metal in vacuum direction by accelerating the heavier material liquid metal Various energy conservation cycle united engines with increasing method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の鉛合金球を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed axially horizontally 8 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save + add gravity acceleration vertically downward + lead material balls of heavy material as vacuum direction accelerated rolling contact power generation Various energy conservation cycle coalescing engine with quantity increase method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed axially horizontally 9 to accelerate liquid metal vertically downward + whole surface Elevate the height of the housing and increase the amount of temperature control water and liquid metal respectively with the increase ball lifter (2F) + add gravitational acceleration vertically accelerate downward + increase the power output as water and liquid metal accelerate direction rolling contact How to make various energy conservation cycles coalesced engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の被覆白金合金球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed axially horizontally 10 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save + add gravity acceleration vertically downward + heavy material coated platinum alloy ball impact reduction means (2G) The various energy preservation cycle united engine which was made to accelerate with the power generation amount increase method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water and liquid metal are accelerated in the vacuum direction to increase power generation method Various energy storage cycles combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water and liquid metal are accelerated in the vacuum direction to increase power generation method Various energy storage cycles combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + the liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 11 horizontal horizontal liquid metal gravity opposing turbines + 3 types of liquid metal gravity counteracting turbine + generator with a turbine blade cross section (4X) 2 to 26 times Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines + two 2 to 26 times the liquid metal gravity counteracting turbine + cross section of the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 3 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise the temperature control water and liquid metal respectively use + add gravity acceleration vertically downward + accelerate the liquid metal to increase power generation method various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal accelerated in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal accelerated in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of gravity acceleration vertically downward + acceleration of liquid metal to increase the amount of power generation combined with various energy storage cycles combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 4 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate liquid metal in vacuum direction to increase power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water downward vertically by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate liquid metal in vacuum direction to increase power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 6 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity generating turbine or generator with 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravitational acceleration vertically downward + to accelerate liquid metal to vacuum rolling direction rolling contact method to increase power generation capacity combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravitational acceleration vertically downward + to accelerate liquid metal to vacuum rolling direction rolling contact method to increase power generation capacity combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise the temperature control water and liquid metal respectively use + add gravity acceleration vertically downward + accelerate the liquid metal to increase power generation method various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed axially horizontally 9 to accelerate liquid metal vertically downward + whole surface Elevate the height of electric power housing + increase ball lift device (2F) to raise temperature control water and liquid metal respectively + use gravity acceleration add vertically downward + accelerate heavy material liquid metal in vacuum direction to increase power output How to make various energy conservation cycles coalesced engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed axially horizontally 10 to accelerate liquid metal vertically downward + whole surface Make the electric house flourish + increase ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravitational acceleration vertically downward + accelerate liquid metal in vacuum direction to increase power generation Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine or generator installed axially horizontally 11 structure and method of accelerating liquid metal vertically downward + whole surface Elevate the height of the housing and increase the amount of temperature control water and liquid metal respectively with the increase ball lifter (2F) + add gravitational acceleration vertically accelerate downward + increase the power output as water and liquid metal accelerate direction rolling contact How to make various energy conservation cycles coalesced engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally 12 to accelerate liquid metal vertically downward + whole surface Elevate the height of the housing and increase the amount of temperature control water and liquid metal respectively with the increase ball lifter (2F) + add gravitational acceleration vertically accelerate downward + increase the power output as water and liquid metal accelerate direction rolling contact How to make various energy conservation cycles coalesced engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator installed horizontally horizontally 1 to accelerate liquid metal vertically downward + whole surface Elevate the height of the house and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically accelerate + accelerate the liquid metal to increase the power generation amount of various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + the liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines + two 2 to 26 times the liquid metal gravity counteracting turbine + cross section of the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 3 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 4 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water downward vertically by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 6 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity generating turbine or generator with 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise the temperature control water and liquid metal respectively use + add gravity acceleration vertically downward + accelerate the liquid metal to increase power generation method various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + saving gravity + adding vertical acceleration vertically downward + liquid material of heavy substance in vacuum direction acceleration method to increase power generation amount Combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal accelerated in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の白金球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of gravity acceleration vertically downward + acceleration of heavy material platinum ball together with impact reduction means (2G) to increase power generation method Combined engine of various energy preservation cycles. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate liquid metal in vacuum direction to increase power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate liquid metal in vacuum direction to increase power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の被覆金球を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Lifting device (2F) to raise temperature control water and liquid metal respectively and save and use + add gravity acceleration vertically downward + coated heavy balls of heavy material as vacuum direction accelerated rolling contact to increase power output Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質の白液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration vertically downward + white liquid metal of heavier material as vacuum direction accelerated rolling contact Various power increase method to increase power output Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の金合金球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 11 horizontal horizontal liquid metal gravity opposing turbines + 3 types of liquid metal gravity counteracting turbine + generator with a turbine blade cross section (4X) 2 to 26 times Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + accelerate heavy metal alloy balls together with shock reduction means (2G) to increase power generation Various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の鉛合金球を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally 12 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save + add gravity acceleration vertically downward + lead of heavy material lead direction vacuum direction to accelerate lead alloy balls Various energy conservation cycle united engines with increasing method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator installed horizontally horizontally 1 to accelerate liquid metal vertically downward + whole surface Elevate the height of electric power housing + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save + add gravitational acceleration vertically downward + accelerate water and liquid metal in vacuum direction to increase power output And various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines of 2 to 26 times the turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 2 Elevate the height of the housing and increase the temperature control water and liquid metal respectively by using the increase ball lift device (2F) + add gravity acceleration vertically accelerate + accelerate liquid metal as vacuum rolling direction rolling contact and increase power generation method Various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally 3 to accelerate liquid metal vertically downward + whole surface Elevate the height of the housing and increase the amount of temperature control water and liquid metal respectively with the increase ball lifter (2F) + add gravitational acceleration vertically accelerate downward + increase the power output as water and liquid metal accelerate direction rolling contact How to make various energy conservation cycles coalesced engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の被覆鉛球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally 4 to accelerate liquid metal vertically downward + whole surface Elevate the height of the housing and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically accelerate + accelerate the coated lead ball of heavy material together with the shock reduction means (2G) The various energy conservation cycle united engine which made the power generation amount increase method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の被覆タングステン合金球を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Temperature and temperature control water and liquid metal are used for rising and holding + addition of gravitational acceleration vertically downward + coated heavy material coated tungsten alloy balls as vacuum direction accelerated rolling contact method of increasing power output . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質のタングステン鋼球を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal in each case rise + use of gravity acceleration + downward vertical acceleration + tungsten steel ball of heavier material as vacuum direction accelerated rolling contact power generation capacity increase method various energy storage cycle combined engine . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の被覆タングステン鋼球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Temperature control water and liquid metal respectively rising and storing + adding gravity acceleration vertically downward + covering heavy material coated tungsten steel ball together with impact reducing means (2G) to accelerate power generation method Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water downward vertically by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 6 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity generating turbine or generator with 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Lifting device (2F) to raise the temperature control water and liquid metal respectively use + add gravity acceleration vertically downward + accelerate the liquid metal to increase power generation method various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal accelerated in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal accelerated in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of gravity acceleration vertically downward + acceleration of water to increase the amount of power generation combined with various energy storage cycle engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate liquid metal in vacuum direction to increase power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 11 horizontal horizontal liquid metal gravity opposing turbines + 3 types of liquid metal gravity counteracting turbine + generator with a turbine blade cross section (4X) 2 to 26 times Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate liquid metal in vacuum direction to increase power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の白液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively and save and use + add gravity acceleration vertically downward + white liquid metal of heavy material as vacuum direction accelerated rolling contact to increase power output Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質の液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Lifting device (2F) to raise temperature control water and liquid metal respectively and save and use + add gravity acceleration vertically downward acceleration + liquid metal of heavier material as vacuum direction accelerated rolling contact to increase power output Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の鉛合金球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines + two 2 to 26 times the liquid metal gravity counteracting turbine + cross section of the turbine blade cross section (4X) Lift the temperature control water and liquid metal respectively in the lift device (2F) + save and use gravity + add vertical acceleration + accelerate the lead alloy ball of heavy material together with the shock reduction means (2G) to increase power generation and Various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally 3 to accelerate liquid metal vertically downward + whole surface Elevate the height of electric power housing + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save + add gravitational acceleration vertically downward + accelerate water and liquid metal in vacuum direction to increase power output And various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally 4 to accelerate liquid metal vertically downward + whole surface Elevate the height of electric power housing + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save + add gravitational acceleration vertically downward + accelerate water and liquid metal in vacuum direction to increase power output And various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed horizontally horizontally 5 to accelerate liquid metal vertically downward + whole surface Elevate the height of the housing and increase the amount of temperature control water and liquid metal respectively with the increase ball lifter (2F) + add gravitational acceleration vertically accelerate downward + increase the power output as water and liquid metal accelerate direction rolling contact How to make various energy conservation cycles coalesced engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed horizontally horizontally in the axial direction 6 structure and method of accelerating liquid metal vertically downward + whole surface Elevate the height of the housing and increase the amount of temperature control water and liquid metal respectively with the increase ball lifter (2F) + add gravitational acceleration vertically accelerate downward + increase the power output as water and liquid metal accelerate direction rolling contact How to make various energy conservation cycles coalesced engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質被覆銀合金球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed horizontally horizontally 7 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) for temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + heavy material coated silver alloy ball with shock reduction means (2G) Various energy storage cycle united engines that were accelerated to increase power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質のタングステン鋼球を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A variety of energy storage cycle combined engine with temperature control water and liquid metal rising storage + use of gravity acceleration + downward vertical acceleration + heavy material tungsten steel balls vacuum direction acceleration rolling contact method to increase power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質の被覆タングステン鋼球を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively increase storage use + addition of gravitational acceleration vertical downward acceleration + heavier material coated tungsten steel balls as vacuum direction accelerated rolling contact power generation amount increase method combining various energy storage cycles organ. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質のタンタル合金球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively increase storage use + addition of gravitational acceleration vertical acceleration + acceleration of heavy material tantalum alloy ball together with impact reduction means (2G) to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed horizontally horizontally 8 to accelerate liquid metal vertically downward + increase Using a ball lifter (2F), raise temperature control water and liquid metal respectively and use it + add gravitational acceleration vertically downward + accelerate heavy liquid metal in vacuum direction to increase power generation by various energy storage cycles Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally 9 to accelerate liquid metal vertically downward + increase A water lifter (2F) is used to raise temperature control water and liquid metal and store it + add gravitational acceleration vertically downward + accelerate liquid metal in a vacuum direction to increase power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator Using a ball lifter (2F), raise the temperature control water and liquid metal respectively and save and use + add gravity acceleration vertically downward + accelerate the liquid metal in vacuum direction accelerating rolling contact method with various energy storage cycles combined engine . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 11 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Using a ball lifter (2F), raise the temperature control water and liquid metal respectively and save and use + add gravity acceleration vertically downward + accelerate the liquid metal in vacuum direction accelerating rolling contact method with various energy storage cycles combined engine . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing 12 horizontal horizontal axial direction of liquid metal gravity countering turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Using a ball lifter (2F) to raise the temperature control water and liquid metal respectively + use gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase the power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal accelerated in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal accelerated in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of gravity acceleration vertically downward + acceleration of liquid metal to increase the amount of power generation combined with various energy storage cycles combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の被覆金球を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Lifting device (2F) to raise temperature control water and liquid metal respectively and save and use + add gravity acceleration vertically downward + coated heavy balls of material are accelerated in vacuum direction to increase power generation by various energy storage cycles Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質の白液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines + two 2 to 26 times the liquid metal gravity counteracting turbine + cross section of the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively and save and use + add gravity acceleration vertically downward + white liquid metal of heavier material in vacuum direction to increase power generation Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 3 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively and save and use + add gravity acceleration vertically downward + liquid material of heavy substance as vacuum direction accelerated rolling contact to increase power output Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 4 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravitational acceleration vertically downward + to accelerate liquid metal to vacuum rolling direction rolling contact method to increase power generation capacity combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の銀合金球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water downward vertically by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Lift the temperature control water and liquid metal respectively in the lift device (2F) + save and use gravity + add gravity vertically downward + accelerate the silver alloy ball of heavy material together with the shock reduction means (2G) to increase power generation Various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed horizontally horizontally in the axial direction 6 structure and method of accelerating liquid metal vertically downward + whole surface Make the electric house flourish + increase ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravitational acceleration vertically downward + accelerate liquid metal in vacuum direction to increase power generation Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed horizontally horizontally 7 to accelerate liquid metal vertically downward + whole surface Elevate the height of electric power housing + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save + add gravitational acceleration vertically downward + accelerate water and liquid metal in vacuum direction to increase power output And various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed axially horizontally 8 to accelerate liquid metal vertically downward + whole surface Elevate the height of the housing and increase the temperature control water and liquid metal respectively by using the increase ball lift device (2F) + add gravity acceleration vertically accelerate + accelerate liquid metal as vacuum rolling direction rolling contact and increase power generation method Various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed axially horizontally 9 to accelerate liquid metal vertically downward + whole surface Elevate the height of the housing and increase the temperature control water and liquid metal respectively by using the increase ball lift device (2F) + add gravity acceleration vertically accelerate + accelerate liquid metal as vacuum rolling direction rolling contact and increase power generation method Various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed axially horizontally 10 to accelerate liquid metal vertically downward + whole surface Elevate the height of the house and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically accelerate + accelerate the liquid metal to increase the power generation amount of various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の被覆タングステン合金球を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A variety of energy storage cycle coalescence engines with temperature control water and liquid metal rising storage + use of gravity acceleration + downward vertical acceleration + heavy material coated tungsten alloy balls vacuum direction acceleration to increase power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質のタングステン鋼球を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are used for rising and holding + addition of gravity acceleration vertically downward + tungsten steel balls of heavier materials are accelerated in the vacuum direction to increase power generation by various energy storage cycles combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の被覆タングステン鋼球を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively increase storage use + addition of gravity acceleration vertical downward acceleration + heavy material coated tungsten steel balls as vacuum direction accelerated rolling contact power generation capacity increase method various energy storage cycle combined engine . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質のタンタル合金球を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively increase storage use + addition of gravitational acceleration vertical downward acceleration + heavier material tantalum alloy balls as vacuum direction accelerated rolling contact power generation capacity increase method various energy storage cycle combined engine . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の被覆タンタル合金球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + coated heavy material coated tantalum alloy ball together with impact reduction means (2G) to accelerate the power generation amount of various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 11 horizontal horizontal liquid metal gravity opposing turbines + 3 types of liquid metal gravity counteracting turbine + generator with a turbine blade cross section (4X) 2 to 26 times Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines + two 2 to 26 times the liquid metal gravity counteracting turbine + cross section of the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 3 horizontal liquid metal gravity opposing turbines with 2 to 26 times the turbine blade cross section (4X) + liquid metal gravity power generation turbines and generators axially horizontally 3 Using a ball lifter (2F) to raise the temperature control water and liquid metal respectively + use gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase the power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal accelerated in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal accelerated in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of gravity acceleration vertically downward + acceleration of liquid metal to increase the amount of power generation combined with various energy storage cycles combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の白液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 4 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively and save and use + add gravity acceleration vertically downward + white material of heavy substance in vacuum direction to increase power generation by various energy storage cycles Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質の液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water downward vertically by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration vertically downward + accelerate heavy metal liquid material in vacuum direction to increase power output Various energy storage cycles Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の鉛合金球を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 6 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity generating turbine or generator with 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively and save and use + add gravity acceleration vertically downward + lead alloy ball of heavy material as vacuum direction accelerated rolling contact to increase power output Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively and save and use + add gravity acceleration vertically downward + accelerating water and liquid metal in vacuum direction accelerated rolling contact and combining various energy storage cycles with electric power increase method organ. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の被覆白金合金球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + accelerate heavy metal coated platinum alloy ball together with shock reduction means (2G) to increase power output And various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed axially horizontally 9 to accelerate liquid metal vertically downward + whole surface Elevate the height of electric power housing + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save + add gravitational acceleration vertically downward + accelerate water and liquid metal in vacuum direction to increase power output And various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed axially horizontally 10 to accelerate liquid metal vertically downward + whole surface Elevate the height of electric power housing + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save + add gravitational acceleration vertically downward + accelerate water and liquid metal in vacuum direction to increase power output And various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine or generator installed axially horizontally 11 structure and method of accelerating liquid metal vertically downward + whole surface Elevate the height of the housing and increase the temperature control water and liquid metal respectively by using the increase ball lift device (2F) + add gravity acceleration vertically accelerate + accelerate liquid metal as vacuum rolling direction rolling contact and increase power generation method Various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally 12 to accelerate liquid metal vertically downward + whole surface Elevate the height of the housing and increase the temperature control water and liquid metal respectively by using the increase ball lift device (2F) + add gravity acceleration vertically accelerate + accelerate liquid metal as vacuum rolling direction rolling contact and increase power generation method Various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator installed horizontally horizontally 1 to accelerate liquid metal vertically downward + whole surface Elevate the height of the house and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically accelerate + accelerate the liquid metal to increase the power generation amount of various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質のタングステン鋼球を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A variety of energy storage cycle combined engine with temperature control water and liquid metal rising and storage use + addition of gravity acceleration + vertical acceleration downward + heavy material tungsten steel ball vacuum direction acceleration to increase power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質の被覆タングステン鋼球を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively + stored gravity + added gravity acceleration vertically downward + coated tungsten steel balls with heavier materials in vacuum direction to increase power output . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質のタンタル合金球を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A variety of energy storage cycle combining engine with temperature control water and liquid metal rising storage + use of gravity acceleration + downward vertical acceleration + heavy material tantalum alloy balls as a vacuum direction accelerated rolling contact to increase power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質の液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are used for rising storage + addition of gravitational acceleration Vertical downward acceleration + liquid material of heavier material for vacuum direction accelerated rolling contact with various energy storage cycle combined engine with power generation increasing method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質のモリブデン鋼球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively rising and storing + adding gravitational acceleration vertically downward + acceleration of heavy material molybdenum steel balls together with impact reducing means (2 G) to increase power generation by various energy storage Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + the liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質の被服白金球を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) Temperature control water and liquid metal are used for rising storage + addition of gravity acceleration vertically downward acceleration + coated platinum spheres of heavier materials are accelerated in the vacuum direction to increase power generation by various energy storage cycle engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質の被服金球を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal rising and storage use + addition of gravity acceleration vertically downward acceleration + heavy metal coated ball as vacuum direction acceleration rolling contact method to increase the amount of power generation combined with various energy storage cycle engines . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + the liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing 2 horizontal to 2 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 2 + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation How to make various energy conservation cycles coalesced engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing 3 horizontal liquid metal gravity counteracting turbines + 3 types of liquid metal gravity power generation turbines and generators axially horizontally with 2 to 26 times the turbine blade cross section (4X) + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation How to make various energy conservation cycles coalesced engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 4 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) + battery Drive various vessels to full power + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + water as vacuum direction acceleration rolling contact method of increasing power output And various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle united engines with increasing method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing turbine blade section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in axial direction + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration liquid metal to increase power output And various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて被覆鉛球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated lead ball vertically by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times the turbine blade cross section (4X) Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + acceleration water direction to increase power generation Various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて被覆液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated liquid metal vertically by providing 8 horizontal horizontal axial direction of liquid metal gravity counter-current turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Storage battery drive to make various ships go up + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + acceleration water direction to increase power generation And various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the water vertically downward by providing the turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Various kinds of ships are made up + increasing ball raising device (2F) to raise temperature control water and liquid metal respectively and save + add gravitational acceleration vertically downward + accelerating water direction in vacuum direction to increase power output Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the water vertically downward by providing 10 horizontal axial direction horizontal liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + 10 Various kinds of ships are made up + increasing ball raising device (2F) to raise temperature control water and liquid metal respectively and save + add gravitational acceleration vertically downward + accelerating water direction in vacuum direction to increase power output Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing 11 horizontal horizontal direction of liquid metal gravity counteracting turbine + 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times the turbine blade cross section (4X) Various kinds of ships are made up + increasing ball raising device (2F) to raise temperature control water and liquid metal respectively and save + add gravitational acceleration vertically downward + accelerating water direction in vacuum direction to increase power output Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal horizontal axial directions of liquid metal gravity opposing turbine 3 types of driving 2 to 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + battery driving Various kinds of ships are made up + increasing ball raising device (2F) to raise temperature control water and liquid metal respectively and save + add gravitational acceleration vertically downward + accelerating water direction in vacuum direction to increase power output Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 Various kinds of ships are made up + increasing ball raising device (2F) to raise temperature control water and liquid metal respectively and save + add gravitational acceleration vertically downward + accelerating water direction in vacuum direction to increase power output Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the water vertically downward by providing two axial and horizontal liquid metal gravity counteracting turbines + 2 kinds of liquid metal gravity opposing turbines with 2 to 26 times the turbine blade cross section (4X) + battery driving Various kinds of ships are made up + increasing ball raising device (2F) to raise temperature control water and liquid metal respectively and save + add gravitational acceleration vertically downward + accelerating water direction in vacuum direction to increase power output Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 3 horizontal liquid metal gravity opposing turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) + battery driving Various kinds of ships are made up + increasing ball raising device (2F) to raise temperature control water and liquid metal respectively and save + add gravitational acceleration vertically downward + accelerating water direction in vacuum direction to increase power output Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 4 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times the turbine blade cross section (4X) + battery driving Various kinds of ships are made up + increasing ball raising device (2F) to raise temperature control water and liquid metal respectively and save + add gravitational acceleration vertically downward + accelerating water direction in vacuum direction to increase power output Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + battery driving Various kinds of ships are made up + temperature increasing water lifter (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + water as vacuum direction accelerated rolling contact to increase power generation method and Various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 6 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity generating turbine or generator with 2 to 26 times the turbine blade cross section (4X) + battery driving Various kinds of ships are made up + temperature increasing water lifter (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + water as vacuum direction accelerated rolling contact to increase power generation method and Various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times the turbine blade cross section (4X) Drive various vessels to full power + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + water as vacuum direction acceleration rolling contact method of increasing power output And various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて被覆液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated liquid metal vertically by providing 8 horizontal horizontal axial direction of liquid metal gravity counter-current turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Storage battery drive to make various ships go up + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + increase water generation as vacuum direction accelerated rolling contact How to make various energy conservation cycles coalesced engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて白水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating white water vertically downward by providing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Various kinds of ships are made up + temperature increasing water lifter (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + water as vacuum direction accelerated rolling contact to increase power generation method and Various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the water vertically downward by providing 10 horizontal axial direction horizontal liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + 10 Various kinds of ships are made up + temperature increasing water lifter (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + water as vacuum direction accelerated rolling contact to increase power generation method and Various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing 11 horizontal horizontal direction of liquid metal gravity counteracting turbine + 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times the turbine blade cross section (4X) Various kinds of ships are made up + temperature increasing water lifter (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + water as vacuum direction accelerated rolling contact to increase power generation method and Various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing 12 horizontal horizontal axial directions of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle united engines with increasing method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in axial direction + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle united engines with increasing method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing 2 horizontal to 2 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 2 + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle united engines with increasing method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing 3 horizontal liquid metal gravity counteracting turbines + 3 types of liquid metal gravity power generation turbines and generators axially horizontally with 2 to 26 times the turbine blade cross section (4X) + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration liquid metal to increase power output And various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 4 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) + battery Drive various vessels to full power + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration liquid metal to increase power output And various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing turbine blade section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in axial direction + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration liquid metal to increase power output And various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて被覆鉛球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated lead ball vertically by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times the turbine blade cross section (4X) Drive various vessels to full power + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて被覆液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated liquid metal vertically by providing 8 horizontal horizontal axial direction of liquid metal gravity counter-current turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Storage Battery Drives Various Vessels + Increases Ball Lifting Device (2F) to raise temperature and control water and liquid metal respectively and save + Add gravity acceleration Power generation method to accelerate vertically downward Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the water vertically downward by providing the turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Various energy conservation cycle combined engines with power generation method to raise the temperature control water and liquid metal respectively and save and use + gravity acceleration downward with various vessel kindling + increase ball lift device (2F) respectively. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the water vertically downward by providing 10 horizontal axial direction horizontal liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + 10 Various energy conservation cycle combined engines with power generation method to raise the temperature control water and liquid metal respectively and save and use + gravity acceleration downward with various vessel kindling + increase ball lift device (2F) respectively. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing 11 horizontal horizontal direction of liquid metal gravity counteracting turbine + 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times the turbine blade cross section (4X) Various energy conservation cycle combined engines with power generation method to raise the temperature control water and liquid metal respectively and save and use + gravity acceleration downward with various vessel kindling + increase ball lift device (2F) respectively. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速する発電方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal horizontal axial directions of liquid metal gravity opposing turbine 3 types of driving 2 to 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + battery driving Various energy conservation cycle combined engines with power generation method to raise the temperature control water and liquid metal respectively and save and use + gravity acceleration downward with various vessel kindling + increase ball lift device (2F) respectively. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Lifting device (2F) Increases the drop + Increases the temperature control water and liquid metal respectively with rising device (2F) Save and use + Add gravity acceleration Vertically accelerate downward + Accelerate water direction to increase power output And various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines + two 2 to 26 times the liquid metal gravity counteracting turbine + cross section of the turbine blade cross section (4X) Lifting device (2F) Increases the drop + Increases the temperature control water and liquid metal respectively with rising device (2F) Save and use + Add gravity acceleration Vertically accelerate downward + Accelerate water direction to increase power output And various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 3 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) Increases the drop + Increases the temperature control water and liquid metal respectively with rising device (2F) Save and use + Add gravity acceleration Vertically accelerate + Increase water generation as vacuum direction accelerated rolling contact How to make various energy conservation cycles coalesced engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 4 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) Increases the drop + Increases the temperature control water and liquid metal respectively with rising device (2F) Save and use + Add gravity acceleration Vertically accelerate + Increase water generation as vacuum direction accelerated rolling contact How to make various energy conservation cycles coalesced engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water downward vertically by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) Increases the drop + Increases the temperature control water and liquid metal respectively with rising device (2F) Save and use + Add gravity acceleration Vertically accelerate downward + Accelerate liquid metal to increase power output Various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 6 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity generating turbine or generator with 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times the turbine blade cross section (4X) A variety of energy storage cycle combined engines that increase temperature control water and liquid metal respectively with a ball lifter (2F), save and use + add gravity acceleration and accelerate vertically downward + vacuum direction of water to increase power generation amount. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて被覆液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated liquid metal vertically by providing 8 horizontal horizontal axial direction of liquid metal gravity counter-current turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration vertically downward + accelerating the water in the vacuum direction accelerating rolling contact method Various energy storage cycle coalescing engine with increasing power generation method . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて白水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating white water vertically downward by providing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator Lifting device (2F) to raise the temperature control water and liquid metal respectively use + add gravity acceleration vertically downward + accelerate the liquid metal to increase power generation method various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal accelerated in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質の被服金球を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of gravity acceleration vertically downward + coated gold balls of heavier substances are accelerated in the direction of vacuum to increase the amount of electricity generated. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の白液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + saving gravity + adding gravity acceleration vertically downward + white material of heavy material vacuum direction acceleration rolling contact as a method of increasing the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質の液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rising + save gravity + add vertical acceleration vertically downward + liquid material of heavier material vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の鉛合金球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rising + saving gravity + add gravity acceleration vertically downward + lead alloy ball of heavy material with shock reduction means (2G) to increase power generation method Combined engine with various energy storage cycles. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 11 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) A variety of energy storage cycle combined engines that increase temperature control water and liquid metal respectively with a ball lifter (2F), save and use + add gravity acceleration and accelerate vertically downward + vacuum direction of water to increase power generation amount. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing 12 horizontal horizontal axial directions of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + vacuum direction of water to increase power generation method Various energy storage cycle combined engine . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in axial direction + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water in vacuum direction accelerated rolling contact method with various energy storage cycle combination method organ. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて被覆鉛球を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the coated lead ball vertically by providing 2 horizontal to 2 times liquid metal gravity counter opposed turbine 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 2 A variety of energy storage cycle coalescing engines with a method of increasing the amount of power generation by raising temperature control water and liquid metal respectively using a ball lifter (2F) and storing + using gravity acceleration + accelerating vertically downward + accelerating water in vacuum direction. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて被覆液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the coated liquid metal vertically by providing 3 horizontal liquid metal gravity counter-current turbine 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator 3 horizontally in axial direction + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity + add gravity vertical acceleration + accelerate the liquid metal to accelerate the power generation method various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing four axial and horizontal liquid metal gravity counteracting turbines + two types of liquid metal gravity opposing turbines with 2 to 26 times the turbine blade cross section (4X) + horizontal electric power generation Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 6 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times the turbine blade cross section (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water in vacuum direction Various methods to increase power output as vacuum rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water in vacuum direction Various methods to increase power output as vacuum rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine cross section of turbine blade (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and use it + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation and save energy Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid substance of heavy material is accelerated in the vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + the liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally 9 to accelerate liquid metal vertically downward + increase A variety of energy storage cycle combined engines that increase temperature control water and liquid metal respectively with a ball lifter (2F), save and use + add gravity acceleration and accelerate vertically downward + vacuum direction of water to increase power generation amount. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて被覆液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated liquid metal vertically by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Increase the temperature control water and liquid metal respectively using the increase ball lift device (2F) + save gravity + add gravity vertically downward + accelerate the water direction in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて白水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate white water vertically downward by providing 11 horizontal horizontal direction of liquid metal gravity counteracting turbine + 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Lifting device (2F) to raise the temperature control water and liquid metal respectively use + add gravity acceleration vertically downward + accelerate the liquid metal to increase power generation method various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の被覆金球を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of gravity acceleration vertically downward + coated gold spheres of heavy substances in a vacuum direction acceleration method to increase the amount of power generation combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質の白液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + saving gravity + adding vertical acceleration vertically downward + white liquid metal of heavier material is accelerated in the direction of vacuum to increase the amount of power generation Combined engine with various energy storage cycles. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + saving gravity + adding gravity acceleration vertically downward + liquid material of heavy material vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の銀合金球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + saving gravity + adding gravity acceleration vertically downward + acceleration of heavy material silver alloy balls together with impact reduction means (2G) to increase power generation method Combined engine with various energy storage cycles. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing 2 horizontal to 2 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 2 + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + vacuum direction of water to increase power generation method Various energy storage cycle combined engine . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing 3 horizontal liquid metal gravity counteracting turbines + 3 types of liquid metal gravity power generation turbines and generators axially horizontally with 2 to 26 times the turbine blade cross section (4X) + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + vacuum direction of water to increase power generation method Various energy storage cycle combined engine . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて被覆鉛球を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated lead ball vertically by providing 4 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with horizontal axial direction of turbine blade cross section (4X) 2 to 26 times A variety of energy storage cycle coalescing engines with a method of increasing the amount of power generation by raising temperature control water and liquid metal respectively using a ball lifter (2F) and storing + using gravity acceleration + accelerating vertically downward + water in vacuum direction accelerating rolling contact. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて被覆液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the coated liquid metal vertically by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration vertically downward + accelerating the water in the vacuum direction accelerating rolling contact method Various energy storage cycle coalescing engine with increasing power generation method . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 6 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity generating turbine or generator with 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise the temperature control water and liquid metal respectively use + add gravity acceleration vertically downward + accelerate the liquid metal to increase power generation method various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine cross section of turbine blade (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water in vacuum direction Various methods to increase power output as vacuum rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times of liquid metal gravity counteracting turbine cross section (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water in vacuum direction Various methods to increase power output as vacuum rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 11 horizontal horizontal direction of liquid metal gravity counteracting turbine + 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times the turbine blade cross section (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and use it + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation and save energy Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質のモリブデン鋼球を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A variety of energy storage cycle combining engines with temperature control water and liquid metal rising + preservation use + addition of gravity acceleration + acceleration vertically downward + molybdenum material balls of heavy material in vacuum direction acceleration method to increase power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Various energy storage cycle combined engines with temperature control water and liquid metal rising use + addition of gravity acceleration + downward acceleration vertically + heavy material liquid metal as vacuum direction accelerated rolling contact to increase power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の銀球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Each use of temperature control water and liquid metal rising + preservation use + addition of gravity acceleration vertically downward + acceleration of heavy material silver ball together with impact reduction means (2G) to increase power generation by various energy storage cycles Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて被覆液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the coated liquid metal vertically by providing 12 horizontal horizontal axial direction of liquid metal gravity counteracting turbine + 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Increase the temperature control water and liquid metal respectively using the increase ball lift device (2F) + save gravity + add gravity vertically downward + accelerate the water direction in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて白水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating white water vertically downward by providing 1 to 26 axial liquid horizontal gravity counteracting turbines + liquid metal gravity power generation turbine or generator with horizontal axial direction 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines + two 2 to 26 times the liquid metal gravity counteracting turbine + cross section of the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 3 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing turbine blade section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 4 horizontally in axial direction + Increase the temperature control water and liquid metal respectively using the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase the power generation combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の白液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + saving gravity + adding vertical acceleration vertically downward + white material of heavy substance in vacuum direction acceleration method to increase power generation amount Combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+より重い物質の液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + saving gravity + adding vertical acceleration vertically downward + liquid material of heavier material in vacuum direction to accelerate power generation method combined with various energy storage cycle engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の鉛合金球を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + saving gravity + adding gravity acceleration vertically downward + lead material balls of heavy material vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation using gravity + addition of gravity acceleration vertically downward + water and liquid metal vacuum direction acceleration rolling contact as a method to increase the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の被覆白金合金球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rising + saving gravity + adding gravity acceleration vertically downward + coated platinum alloy ball of heavy material together with impact reduction means (2G) to increase power generation method Combined engine with various energy storage cycles. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + vacuum direction of water to increase power generation method Various energy storage cycle combined engine . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて被覆鉛球を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the coated lead ball vertically by providing 6 horizontal axial direction of liquid metal gravity counter opposed turbine 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times of turbine blade cross section (4X) + increase A variety of energy storage cycle combined engines that increase temperature control water and liquid metal respectively with a ball lifter (2F), save and use + add gravity acceleration and accelerate vertically downward + vacuum direction of water to increase power generation amount. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて被覆液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated liquid metal vertically by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times the turbine blade cross section (4X) Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration vertically downward + accelerating the water in the vacuum direction accelerating rolling contact method Various energy storage cycle coalescing engine with increasing power generation method . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Lifting device (2F) to raise the temperature control water and liquid metal respectively use + add gravity acceleration vertically downward + accelerate the liquid metal to increase power generation method various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times of liquid metal gravity counteracting turbine cross section (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 11 horizontal horizontal direction of liquid metal gravity counteracting turbine + 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times the turbine blade cross section (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal horizontal axial directions of liquid metal gravity opposing turbine 3 types + 2 to 26 times of liquid metal gravity counteracting turbine cross section (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water in vacuum direction Various methods to increase power output as vacuum rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water in vacuum direction Various methods to increase power output as vacuum rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines + two 2 to 26 times the liquid metal gravity counteracting turbine + cross section of the turbine blade cross section (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and use it + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation and save energy Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + the liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて白水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating white water vertically downward by providing 3 horizontal liquid metal gravity opposing turbines with 2 to 26 times the turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator axially horizontally 3 Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 4 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water downward vertically by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing turbine blade section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in axial direction + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water in vacuum direction accelerated rolling contact method with various energy storage cycle combination method organ. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water and liquid metal vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction + Increase the temperature control water and liquid metal respectively using the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase the power generation combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + saving gravity + adding vertical acceleration vertically downward + liquid material of heavy substance in vacuum direction acceleration method to increase power generation amount Combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal accelerated in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation using gravity + addition of gravity acceleration vertically downward + water and liquid metal vacuum direction acceleration rolling contact as a method to increase the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation using gravity + addition of gravity acceleration vertically downward + water and liquid metal vacuum direction acceleration rolling contact as a method to increase the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of gravity acceleration vertically downward + acceleration of liquid metal to increase the amount of power generation combined with various energy storage cycles combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて被覆鉛球を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated lead ball vertically by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity generating turbine or generator 2 to 26 times the turbine blade cross section (4X) A variety of energy storage cycle combined engines that increase temperature control water and liquid metal respectively with a ball lifter (2F), save and use + add gravity acceleration and accelerate vertically downward + vacuum direction of water to increase power generation amount. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて被覆液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated liquid metal vertically by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Increase the temperature control water and liquid metal respectively using the increase ball lift device (2F) + save gravity + add gravity vertically downward + accelerate the water direction in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 11 horizontal horizontal liquid metal gravity opposing turbines + 3 types of liquid metal gravity counteracting turbine + generator with a turbine blade cross section (4X) 2 to 26 times Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise the temperature control water and liquid metal respectively use + add gravity acceleration vertically downward + accelerate the liquid metal to increase power generation method various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines + two 2 to 26 times the liquid metal gravity counteracting turbine + cross section of the turbine blade cross section (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 3 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator 3 horizontally in the axial direction Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water in vacuum direction Various methods to increase power output as vacuum rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing four axial and horizontal liquid metal gravity counteracting turbines + two types of liquid metal gravity opposing turbines with 2 to 26 times the turbine blade cross section (4X) + horizontal electric power generation Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water in vacuum direction Various methods to increase power output as vacuum rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and use it + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation and save energy Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid substance of heavy material is accelerated in the vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の白金球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Each use of temperature control water and liquid metal rising + preservation use + addition of gravitational acceleration vertically downward + acceleration of heavy material platinum balls together with impact reduction means (2G) to increase power generation by various energy storage cycles Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 6 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity generating turbine or generator with 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water in vacuum direction accelerated rolling contact method with various energy storage cycle combination method organ. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in axial direction + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water in vacuum direction accelerated rolling contact method with various energy storage cycle combination method organ. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water and liquid metal vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Increase the temperature control water and liquid metal respectively using the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase the power generation combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の鉛合金球を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + saving gravity + adding vertical acceleration + downward acceleration + heavy material lead alloy ball vacuum direction acceleration method to increase power generation method Combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration of water + liquid metal in a vacuum direction to increase the amount of power generation combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation using gravity + addition of gravity acceleration vertically downward + water and liquid metal vacuum direction acceleration rolling contact as a method to increase the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の被覆鉛球を衝撃低減手段(2G)と共に加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rising + saving gravity + adding gravity acceleration vertically downward + coated lead ball of heavy material with shock reduction means (2G) to accelerate power generation capacity combined engine various power saving cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて被覆液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated liquid metal vertically by providing 11 horizontal horizontal direction of liquid metal gravity counteracting turbine + 3 types + liquid metal gravity power generation turbine or generator with turbine blade cross section (4X) 2 to 26 times Increase the temperature control water and liquid metal respectively using the increase ball lift device (2F) + save gravity + add gravity vertically downward + accelerate the water direction in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines + two 2 to 26 times the liquid metal gravity counteracting turbine + cross section of the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 3 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise the temperature control water and liquid metal respectively use + add gravity acceleration vertically downward + accelerate the liquid metal to increase power generation method various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing four axial and horizontal liquid metal gravity counteracting turbines + two types of liquid metal gravity opposing turbines with 2 to 26 times the turbine blade cross section (4X) + horizontal electric power generation Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 6 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times the turbine blade cross section (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water in vacuum direction Various methods to increase power output as vacuum rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water in vacuum direction Various methods to increase power output as vacuum rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine cross section of turbine blade (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and use it + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation and save energy Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each use of temperature control water and liquid metal rising + preservation using gravity + addition of gravity acceleration + acceleration vertically downward + acceleration of water to increase the amount of power generation Combined engine of various energy storage cycles. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water and liquid metal vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + vacuum direction of water to increase power generation method Various energy storage cycle combined engine . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing 11 horizontal horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + generator with a turbine blade cross section (4X) 2 to 26 times + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water in vacuum direction accelerated rolling contact method with various energy storage cycle combination method organ. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing 12 horizontal horizontal axial directions of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water in vacuum direction accelerated rolling contact method with various energy storage cycle combination method organ. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in axial direction + Increase the temperature control water and liquid metal respectively using the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase the power generation combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration of water + liquid metal in a vacuum direction to increase the amount of power generation combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration of water + liquid metal in a vacuum direction to increase the amount of power generation combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation using gravity + addition of gravity acceleration vertically downward + water and liquid metal vacuum direction acceleration rolling contact as a method to increase the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation using gravity + addition of gravity acceleration vertically downward + water and liquid metal vacuum direction acceleration rolling contact as a method to increase the amount of power generation combined engine various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of gravity acceleration vertically downward + acceleration of liquid metal to increase the amount of power generation combined with various energy storage cycles combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines + two 2 to 26 times the liquid metal gravity counteracting turbine + cross section of the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 3 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 4 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water downward vertically by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 6 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity generating turbine or generator with 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise the temperature control water and liquid metal respectively use + add gravity acceleration vertically downward + accelerate the liquid metal to increase power generation method various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine cross section of turbine blade (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water in vacuum direction Various methods to increase power output as vacuum rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times of liquid metal gravity counteracting turbine cross section (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water in vacuum direction Various methods to increase power output as vacuum rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 11 horizontal horizontal direction of liquid metal gravity counteracting turbine + 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times the turbine blade cross section (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and use it + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation and save energy Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + the liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing 12 horizontal horizontal axial directions of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + vacuum direction of water to increase power generation method Various energy storage cycle combined engine . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in axial direction + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + vacuum direction of water to increase power generation method Various energy storage cycle combined engine . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing 2 horizontal to 2 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 2 + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water in vacuum direction accelerated rolling contact method with various energy storage cycle combination method organ. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing 3 horizontal liquid metal gravity counteracting turbines + 3 types of liquid metal gravity power generation turbines and generators axially horizontally with 2 to 26 times the turbine blade cross section (4X) + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water in vacuum direction accelerated rolling contact method with various energy storage cycle combination method organ. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine and generator are provided horizontally horizontally 4 to accelerate liquid metal vertically downward + increase Using a ball lifter (2F) to raise the temperature control water and liquid metal respectively + use gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase the power output. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal accelerated in vacuum direction to increase power generation method Various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration of water + liquid metal in a vacuum direction to increase the amount of power generation combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of gravity acceleration vertically downward + acceleration of liquid metal to increase the amount of power generation combined with various energy storage cycles combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water downward vertically by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 6 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity generating turbine or generator with 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Lifting device (2F) to raise the temperature control water and liquid metal respectively use + add gravity acceleration vertically downward + accelerate the liquid metal to increase power generation method various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times of liquid metal gravity counteracting turbine cross section (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 11 horizontal horizontal direction of liquid metal gravity counteracting turbine + 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times the turbine blade cross section (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal horizontal axial directions of liquid metal gravity opposing turbine 3 types + 2 to 26 times of liquid metal gravity counteracting turbine cross section (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water in vacuum direction Various methods to increase power output as vacuum rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water in vacuum direction Various methods to increase power output as vacuum rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines of 2 to 26 times the turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 2 Elevate the height of the house and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically accelerate + accelerate the liquid metal to increase the power generation amount of various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + the liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing 3 horizontal liquid metal gravity counteracting turbines + 3 types of liquid metal gravity power generation turbines and generators axially horizontally with 2 to 26 times the turbine blade cross section (4X) + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + vacuum direction of water to increase power generation method Various energy storage cycle combined engine . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing turbine blade section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 4 horizontally in axial direction + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + vacuum direction of water to increase power generation method Various energy storage cycle combined engine . タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water in vacuum direction accelerated rolling contact method with various energy storage cycle combination method organ. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in axial direction A variety of energy storage cycle coalescing engines with a method of increasing the amount of power generation by raising temperature control water and liquid metal respectively using a ball lifter (2F) and storing + using gravity acceleration + accelerating vertically downward + accelerating water in vacuum direction. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water and liquid metal vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction + Increase the temperature control water and liquid metal respectively using the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase the power generation combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration of water + liquid metal in a vacuum direction to increase the amount of power generation combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration of water + liquid metal in a vacuum direction to increase the amount of power generation combined engine various energy storage cycle. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of vertical acceleration + downward acceleration + liquid metal vacuum direction acceleration rolling contact method to increase the amount of power generation combined engine various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation of gravity + addition of gravity acceleration vertically downward + acceleration of liquid metal to increase the amount of power generation combined with various energy storage cycles combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Lifting device (2F) to raise temperature control water and liquid metal, respectively, to store and use + to add gravity acceleration vertically downward + to accelerate the water direction by vacuum direction to increase power generation capacity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 11 horizontal horizontal liquid metal gravity opposing turbines + 3 types of liquid metal gravity counteracting turbine + generator with a turbine blade cross section (4X) 2 to 26 times Lifting device (2F) to raise temperature control water and liquid metal, respectively, save and use + add gravity acceleration vertically downward + accelerate the water in vacuum direction as rolling contact with various energy saving cycle combined engines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise the temperature control water and liquid metal respectively use + add gravity acceleration vertically downward + accelerate the liquid metal to increase power generation method various energy storage cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines + two 2 to 26 times the liquid metal gravity counteracting turbine + cross section of the turbine blade cross section (4X) Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water direction to increase power generation by various energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 3 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator 3 horizontally in the axial direction Make the house flourish + increase the ball rise device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerate water in vacuum direction Various methods to increase power output as vacuum rolling contact Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally 4 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save and use + add gravity acceleration vertically downward + water as vacuum direction accelerated rolling contact to increase power generation method Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて被覆液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the coated liquid metal vertically by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) We will make temperature control water and liquid metal rise and save and use it + add gravity acceleration vertically acceleration + liquid metal to accelerate power metal generation increase method variously to increase the height control water and liquid metal respectively with full increase electrification house prime + increase ball lift device (2F) Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Each type of temperature control water and liquid metal is used for rising preservation + addition of gravitational acceleration Vertical acceleration downward + acceleration for liquid metal in vacuum direction to increase power generation method Various energy preservation cycle combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + liquid metal is accelerated in rolling direction by rolling contact with various metals. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) The temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + the liquid metal is accelerated to increase the amount of power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase ball rise device (2F) for temperature control respectively Water and liquid metal ascend storage use + addition of gravitational acceleration vertically downward acceleration + liquid metal in the vacuum direction accelerated power generation aiming at increasing power generation of various types of energy storage cycle of power generation method provided with three types of liquid metal gravity opposing turbine organ. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase ball rise device (2F) for temperature control respectively Water and liquid metal rise and save + addition of gravitational acceleration Vertical downward acceleration + liquid metal accelerated in vacuum direction to increase power output Various energy conservation of power generation method provided with three types of liquid metal gravity opposing turbines in multiple stages Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase ball rise device (2F) for temperature control respectively Use of water and liquid metal rising + preservation use + addition of gravitational acceleration Vertical downward acceleration + vacuum direction acceleration of water and liquid metal as a rolling contact with liquid metal aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase ball rise device (2F) for temperature control respectively Use of water and liquid metal rising + preservation use + addition of gravitational acceleration Vertical downward acceleration + vacuum direction acceleration of water and liquid metal as a rolling contact with liquid metal aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase ball rise device (2F) for temperature control respectively Use of water and liquid metal rising + preservation use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Liquid metal gravity opposing turbines Various types of energy storage cycle combination of power generation method provided with three types of multistage opposed turbine organ. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて被覆鉛球を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the coated lead ball vertically by providing 6 horizontal axial direction of liquid metal gravity counter opposed turbine 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times of turbine blade cross section (4X) + increase Using a ball lifter (2F), raise temperature control water and liquid metal respectively and use it + save gravity + add vertical acceleration vertically downward + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて被覆液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を液体金属重力対向タービン3種類を多段に設けて1000倍発電量を狙う各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated liquid metal vertically by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times the turbine blade cross section (4X) Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save storage + add gravitational acceleration Vertically accelerate downward + accelerate the water direction to increase power generation Multi-stage multistage liquid metal gravity opposing turbine A variety of energy storage cycle coalescing engine that aims to provide 1000 times power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 11 horizontal horizontal liquid metal gravity opposing turbines + 3 types of liquid metal gravity counteracting turbine + generator with a turbine blade cross section (4X) 2 to 26 times Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines + two 2 to 26 times the liquid metal gravity counteracting turbine + cross section of the turbine blade cross section (4X) Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 3 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 4 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times the turbine blade cross section (4X) + battery driving Various kinds of ships to be made + temperature increasing water and liquid metal rising and storing respectively with increasing ball raising device (2F) + adding gravity acceleration vertically downward + specific critical material liquid aiming at increasing vacuum power generation Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + battery driving Make various ships like prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravitational acceleration vertically downward + accelerate water direction to vacuum to increase power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 6 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generating turbine or generator with 2 to 26 times the turbine blade cross section (4X) Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + accelerate the water with vacuum direction accelerated rolling contact Increase power output Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて被覆液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated liquid metal vertically by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times the turbine blade cross section (4X) Storage battery drive to make various ships go up + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + increase water generation as vacuum direction accelerated rolling contact Various energy storage cycle coalescing engines of power generation method with three types of liquid metal gravity opposing turbines aimed at multistage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて白水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating white water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + battery driving Various kinds of ships are made up + increasing ball raising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerating liquid metal to increase power output liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the water vertically downward by providing the turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Various kinds of ships to be made + temperature increasing water and liquid metal rising and storing respectively with increasing ball raising device (2F) + adding gravity acceleration vertically downward + specific critical material liquid aiming at increasing vacuum power generation Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the water vertically downward by providing 10 horizontal axial direction horizontal liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + 10 Various kinds of ships to be made + temperature increasing water and liquid metal rising and storing respectively with increasing ball raising device (2F) + adding gravity acceleration vertically downward + specific critical material liquid aiming at increasing vacuum power generation Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing 11 horizontal horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + generator with a turbine blade cross section (4X) 2 to 26 times + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of power generation method with three types of liquid metal gravity opposing turbines aimed at multistage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing 12 horizontal horizontal axial directions of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of power generation method with three types of liquid metal gravity opposing turbines aimed at multistage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in axial direction + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of power generation method with three types of liquid metal gravity opposing turbines aimed at multistage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing 2 horizontal to 2 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 2 + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of power generation method with three types of liquid metal gravity opposing turbines aimed at multistage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 3 horizontal liquid metal gravity opposing turbines 3 types of driving + cross section of the turbine blade cross section (4X) + liquid metal gravity power generating turbine and generator horizontally horizontally 3 Drive various ships to their full height + Increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing turbine blade section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 4 horizontally in axial direction + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of power generation method with three types of liquid metal gravity opposing turbines aimed at multistage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of power generation method with three types of liquid metal gravity opposing turbines aimed at multistage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて被覆鉛球を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the coated lead ball vertically by providing 6 horizontal axial direction of liquid metal gravity counteracting turbine + 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times the turbine blade cross section (4X) Drive various ships to their full height + Increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて被覆液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated liquid metal vertically by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times the turbine blade cross section (4X) Storage battery drive to make various ships go up + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + increase water generation as vacuum direction accelerated rolling contact Various energy storage cycle coalescing engines of power generation method with three types of liquid metal gravity opposing turbines aimed at multistage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the water vertically downward by providing 8 horizontal horizontal direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity generating turbine or generator with 2 to 26 times the turbine blade cross section (4X) To increase the amount of power generation by increasing the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the water vertically downward by providing the turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction To increase the amount of power generation by increasing the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the water vertically downward by providing 10 horizontal axial direction horizontal liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + 10 To increase the amount of power generation by increasing the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing 11 horizontal horizontal direction of liquid metal gravity counteracting turbine + 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times the turbine blade cross section (4X) To increase the amount of power generation by increasing the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal horizontal axial directions of liquid metal gravity opposing turbine 3 types of driving 2 to 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + battery driving To increase the amount of power generation by increasing the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 To increase the amount of power generation by increasing the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the water vertically downward by providing two axial and horizontal liquid metal gravity counteracting turbines + 2 kinds of liquid metal gravity opposing turbines with 2 to 26 times the turbine blade cross section (4X) + battery driving To increase the amount of power generation by increasing the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 3 horizontal liquid metal gravity opposing turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) + battery driving To increase the amount of power generation by increasing the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 4 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times the turbine blade cross section (4X) + battery driving To increase the amount of power generation by increasing the temperature control water and liquid metal respectively by using an increase ball lifter (2F) and adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + battery driving Various kinds of ships are made up + increasing ball raising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerating liquid metal to increase power output liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 6 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generating turbine or generator with 2 to 26 times the turbine blade cross section (4X) Drive various vessels to the full rise + Increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて被覆液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated liquid metal vertically by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times the turbine blade cross section (4X) Storage battery drive to make various ships go up + Increase the temperature control water and liquid metal respectively with increase ball raising device (2F) Save use + add gravity acceleration accelerate vertically downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて白水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating white water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + battery driving Various kinds of ships are made up + increasing ball raising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerating liquid metal to increase power output liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the water vertically downward by providing the turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Various kinds of ships are made up + increasing ball raising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + accelerating liquid metal to increase power output liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the water vertically downward by providing 10 horizontal axial direction horizontal liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + 10 Various kinds of ships to be made + Temperature and temperature control water and liquid metal are raised and stored respectively with increase ball lifter (2F) + Gravitational acceleration is added + Vertical acceleration is downward + Liquid metal gravity opposing turbine aiming at the same water volume maximum output Energy storage cycle combination engine of power generation method provided with three types in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing 11 horizontal horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + generator with a turbine blade cross section (4X) 2 to 26 times + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing 12 horizontal horizontal axial directions of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in axial direction + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水と液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing 2 horizontal to 2 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 2 + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 3 horizontal liquid metal gravity opposing turbines with 2 to 26 times the turbine blade cross section (4X) + liquid metal gravity power generation turbines and generators axially horizontally 3 Ball lift device (2F) increase the drop + increase ball lift device (2F) for temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward accelerate + ratio critical material vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of power generation method with three types of liquid metal gravity opposing turbines aimed at multistage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing turbine blade section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 4 horizontally in axial direction + Increase ball lifter (2F) with drop increase + increment ball lifter (2F) with temperature control water and liquid metal ascend storage use + add gravity acceleration vertically downward + acceleration of water by vacuum direction acceleration Various energy storage cycle combined engines of power generation method which is equipped with 3 types of liquid metal gravity counter-turbines in multi-stage aiming to increase quantity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) + Increase ball lifter (2F) with drop increase + increment ball lifter (2F) with temperature control water and liquid metal rise and save + add gravity acceleration vertically downward + water as vacuum direction accelerated rolling contact Various energy preservation cycle combined engines of the power generation method which provided three kinds of liquid metal gravity counter turbines in multi-stage aiming at the increase of power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて被覆鉛球を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the coated lead ball vertically by providing 6 horizontal axial direction of liquid metal gravity counter opposed turbine 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times of turbine blade cross section (4X) + increase Increase the drop with ball lift device (2F) + raise the temperature control water and liquid metal respectively with raise ball lift device (2F) use + add gravity acceleration vertically accelerated + water as vacuum direction accelerated rolling contact power generation amount Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter-turbines aiming at increase in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて被覆液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the coated liquid metal vertically by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times the turbine blade cross section (4X) Water and liquid metal for temperature control with rising ball rising device (2F) with rising ball rising device (2F) rising storage use of water and liquid metal respectively + adding gravity acceleration vertically accelerating + liquid metal acceleration to increase power output Various energy storage cycle coalescing engines of power generation method with three types of liquid metal gravity opposing turbines aimed at multistage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 11 horizontal horizontal liquid metal gravity opposing turbines + 3 types of liquid metal gravity counteracting turbine + generator with a turbine blade cross section (4X) 2 to 26 times Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+出力増大球(2E)を加速する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation facility equipment method to make the turbine blade about 1/10 + power increase ball (2E) acceleration + increase Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. Use + save gravity + add gravity acceleration vertically downward + accelerate liquid metal in vacuum direction Increase the amount of power generation of liquid metal Gravity opposing turbine 3 types in multiple stages Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+出力増大球(2E)を加速する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation facility equipment method to make the turbine blade about 1/10 + power increase ball (2E) acceleration + increase Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate liquid metal in vacuum direction to increase power generation by three types of liquid metal gravity facing turbines Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+出力増大球(2E)を加速する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation facility equipment method to make the turbine blade about 1/10 + power increase ball (2E) acceleration + increase Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. + Save and use gravity + add gravity acceleration vertically downward + accelerate the liquid metal in vacuum direction rolling contact to increase power generation with three types of liquid metal gravity opposing turbine Various energy storage cycles combined engine of power generation method provided in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+出力増大球(2E)を加速する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation facility equipment method to make the turbine blade about 1/10 + power increase ball (2E) acceleration + increase Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. + Save and use gravity + add gravity acceleration vertically downward + accelerate the liquid metal in vacuum direction rolling contact to increase power generation with three types of liquid metal gravity opposing turbines Various energy storage cycles combined engine of power generation method provided in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+出力増大球(2E)を加速する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation facility equipment method to make the turbine blade about 1/10 + power increase ball (2E) acceleration + increase Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. Use + save gravity + add vertical acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+出力増大球(2E)を加速タービン駆動する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 1 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Drive the expansion ball (2E) to accelerate the turbine + increase the ball lifter (2F) to raise the temperature control water and liquid metal respectively + save gravity + add gravity acceleration vertically downward + specific critical material in vacuum direction accelerated power generation amount Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter-turbines aiming at increase in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて被覆液体金属を垂直下方に加速する構造や方法+出力増大球(2E)を加速タービン駆動する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the coated liquid metal vertically by providing two axial and horizontal liquid metal gravity opposing turbines of 2 to 26 times the turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator 2 horizontally in the axial direction Drive the power increasing ball (2E) by acceleration turbine driving + raise the temperature rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward to accelerate + generate electric power by vacuum direction of water Various energy storage cycle combined engines of power generation method which is equipped with 3 types of liquid metal gravity counter-turbines in multi-stage aiming to increase quantity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて白水を垂直下方に加速する構造や方法+出力増大球(2E)を加速タービン駆動する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating white water vertically downward by providing 3 horizontal liquid metal gravity opposing turbines 3 types + liquid metal gravity power generation turbine or generator with horizontal axial direction for turbine blade cross section (4X) 2 to 26 times Drive the ball (2E) by accelerating the turbine + increase the ball lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration vertically downward + accelerate the water as vacuum direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter-turbines aiming at increase in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を加速タービン駆動する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water downward vertically by providing 4 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator with horizontal axial direction 2 to 26 times the turbine blade cross section (4X) Drive the ball (2E) by accelerating the turbine + increase the ball lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration vertically downward + accelerate the water as vacuum direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter-turbines aiming at increase in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を加速タービン駆動する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water downward vertically by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator with 2 to 26 times the turbine blade cross section (4X) Drive the ball (2E) by accelerating the turbine + increase the ball lifter (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水と液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing turbine blade section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in axial direction + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水と液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water and liquid metal vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add gravity vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle coalition agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水と液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水と液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in axial direction + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator installed axially horizontally 10 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output liquid metal gravity Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+被覆白液体金属を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rise and save + add gravity acceleration vertically downward + white liquid metal vacuum direction accelerated power generation aimed at increasing the amount of power generation of liquid metal gravity counter power turbine provided with three types of multistage power generation How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of water and liquid metal in vacuum direction to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + liquid metal accelerating in vacuum direction rolling contact with liquid metal gravity countering turbine 3 types of liquid metal gravity opposing turbines provided in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + liquid metal accelerating in vacuum direction rolling contact with liquid metal gravity countering turbine 3 types of liquid metal gravity opposing turbines provided in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal to increase power output by three kinds of liquid metal gravity opposing turbines installed in multiple stages Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 11 horizontal horizontal liquid metal gravity opposing turbines + 3 types of liquid metal gravity counteracting turbine + generator with a turbine blade cross section (4X) 2 to 26 times Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 12 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けてタンタル合金球球を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate the tantalum alloy ball downward vertically by providing 2 horizontal to 2 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator axially horizontally 2 + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle united engines of power generation method provided in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 3 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+モリブデン鋼球を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + molybdenum steel ball aiming at increasing the amount of power generation in vacuum direction Liquid metal gravity opposing turbines Various energy storage cycles of power generation method provided with three types of multistage opposed turbine Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise and save + addition of gravitational acceleration Vertical downward acceleration + liquid metal accelerated in vacuum direction to increase power output Various energy conservation of power generation method provided with three types of liquid metal gravity opposing turbines in multiple stages Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の液体金属を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertical downward acceleration + vacuum direction liquid metal as vacuum direction acceleration rolling contact to aim at increasing the amount of power generation Power generation method provided with three types of liquid metal gravity opposing turbine in multiple stages The various energy conservation cycle coalescing agencies タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal ascend storage use + addition of gravity acceleration vertically downward acceleration + liquid metal as vacuum direction acceleration rolling contact To increase power generation with various liquid metal gravity opposing turbines Various energy generation methods of the power generation method provided with three types in multiple stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+重い物質の銀球を衝撃低減手段(2G)と共に加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + acceleration of heavy material silver ball together with shock reduction means (2G) to increase power generation by three types of liquid metal gravity opposing turbines in multiple stages Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+被覆銀球を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 4 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + increase coated silver spheres to increase the amount of vacuum power generation Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water downward vertically by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Lift water (2F) and manage temperature and water and liquid metal respectively. Save + use gravity acceleration vertically downward + accelerate liquid metal in vacuum direction to increase power output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 6 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity generating turbine or generator with 2 to 26 times the turbine blade cross section (4X) Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times turbine blade cross section (4X) Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水と液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in axial direction + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水と液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water and liquid metal vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水と液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing 11 horizontal horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + generator with a turbine blade cross section (4X) 2 to 26 times + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally 12 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水と液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in axial direction + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+被覆液体金属を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature and temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + coated liquid metal is accelerated in the direction of vacuum power generation of liquid metal gravity opposing turbine Three kinds of power metal gravity opposing turbines are provided in multistage power generation method The various energy conservation cycle coalescing agencies タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水と液体金属を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of water and liquid metal in vacuum direction to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + liquid metal accelerating in vacuum direction rolling contact with liquid metal gravity countering turbine 3 types of liquid metal gravity opposing turbines provided in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + liquid metal accelerating in vacuum direction rolling contact with liquid metal gravity countering turbine 3 types of liquid metal gravity opposing turbines provided in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal to increase power output by three kinds of liquid metal gravity opposing turbines installed in multiple stages Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines + two 2 to 26 times the liquid metal gravity counteracting turbine + cross section of the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 3 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 4 horizontal liquid metal gravity opposed turbines 3 types + liquid metal gravity power generation turbine or generator with axial horizontal cross section 2 to 26 times the turbine blade cross section (4X) Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water downward vertically by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 6 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity generating turbine or generator with 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal ascend storage use + addition of gravitational acceleration vertically downward acceleration + liquid metal in the vacuum direction accelerated power generation aiming at increasing power generation of various types of energy storage cycle of power generation method provided with three types of liquid metal gravity opposing turbine organ. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise and save + addition of gravitational acceleration Vertical downward acceleration + liquid metal accelerated in vacuum direction to increase power output Various energy conservation of power generation method provided with three types of liquid metal gravity opposing turbines in multiple stages Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal ascend storage use + addition of gravity acceleration vertically downward acceleration + liquid metal as vacuum direction acceleration rolling contact To increase power generation with various liquid metal gravity opposing turbines Various energy generation methods of the power generation method provided with three types in multiple stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal ascend storage use + addition of gravity acceleration vertically downward acceleration + liquid metal as vacuum direction acceleration rolling contact To increase power generation with various liquid metal gravity opposing turbines Various energy generation methods of the power generation method provided with three types in multiple stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use of water and liquid metal rising + preservation use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Liquid metal gravity opposing turbines Various types of energy storage cycle combination of power generation method provided with three types of multistage opposed turbine organ. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて白水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate white water vertically downward by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water and liquid metal vertically downward by providing 10 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle united engines of power generation method provided in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水と液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing 11 horizontal horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + generator with a turbine blade cross section (4X) 2 to 26 times + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水と液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water and liquid metal vertically downward by providing 12 horizontal horizontal axial directions of liquid metal gravity opposing turbine 3 types of driving 2 + 26 times the turbine blade cross section (4X) + liquid metal gravity generating turbine or generator + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水と液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by installing a turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in axial direction + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing two axial and horizontal liquid metal gravity opposing turbines of 2 to 26 times the turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 2 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水と液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing 3 horizontal liquid metal gravity counteracting turbines + 3 types of liquid metal gravity power generation turbines and generators axially horizontally with 2 to 26 times the turbine blade cross section (4X) + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水と液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water and liquid metal vertically downward by providing turbine blade section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 4 horizontally in axial direction + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+被覆鉛球を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + covering lead sphere vacuum direction accelerated power generation aiming at increasing the amount of power generation of liquid metal gravity opposing turbines Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal in vacuum direction to increase power generation power generation with three types of liquid metal gravity opposing turbine provided in multiple stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + liquid metal accelerating in vacuum direction rolling contact with liquid metal gravity countering turbine 3 types of liquid metal gravity opposing turbines provided in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + liquid metal accelerating in vacuum direction rolling contact with liquid metal gravity countering turbine 3 types of liquid metal gravity opposing turbines provided in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal to increase power output by three kinds of liquid metal gravity opposing turbines installed in multiple stages Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water downward vertically by providing 5 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 6 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity generating turbine or generator with 2 to 26 times the turbine blade cross section (4X) Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 7 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity counteracting turbine + 2 to 26 times turbine blade cross section (4X) Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing 8 horizontal horizontal axial direction of liquid metal gravity opposing turbine 3 types + 2 to 26 times liquid metal gravity counteracting turbine with cross section of turbine blade (4X) Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing the turbine blade cross section (4X) with 2 to 26 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal ascend storage use + addition of gravitational acceleration vertically downward acceleration + liquid metal in the vacuum direction accelerated power generation aiming at increasing power generation of various types of energy storage cycle of power generation method provided with three types of liquid metal gravity opposing turbine organ. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise and save + addition of gravitational acceleration Vertical downward acceleration + liquid metal accelerated in vacuum direction to increase power output Various energy conservation of power generation method provided with three types of liquid metal gravity opposing turbines in multiple stages Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal ascend storage use + addition of gravity acceleration vertically downward acceleration + liquid metal as vacuum direction acceleration rolling contact To increase power generation with various liquid metal gravity opposing turbines Various energy generation methods of the power generation method provided with three types in multiple stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal ascend storage use + addition of gravity acceleration vertically downward acceleration + liquid metal as vacuum direction acceleration rolling contact To increase power generation with various liquid metal gravity opposing turbines Various energy generation methods of the power generation method provided with three types in multiple stages Preservation cycle union agency. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Liquid metal gravity opposing turbine 3 types of driving twice the turbine blade cross section (4X) + installation method to make the liquid metal gravity power generation output generating turbine blade about 1/10 water for temperature control respectively with increasing ball lift device (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4X) 3 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine or generator 10 horizontally in axial direction + increasing ball lifter (2F) temperature control water and liquid metal respectively rise and save use + addition of gravitational acceleration vertical downward acceleration + specific critical substance in vacuum direction accelerated power generation aiming at increase of generation amount of liquid metal gravity opposing turbine 3 kinds of three kinds provided in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 4 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 11 axially horizontally In (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward acceleration + water direction is accelerated in the vacuum direction to increase power generation by providing three types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction In (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction accelerated rolling contact, and liquid metal gravity opposing turbines are set up in three stages to increase power generation Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 6 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction In (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction accelerated rolling contact, and liquid metal gravity opposing turbines are set up in three stages to increase power generation Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 7 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator 2 horizontally in the axial direction (2F) Temperature control water and liquid metal respectively rise and store + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Power generation with three types of liquid metal gravity opposing turbine provided in multiple stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 3 times the liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation turbine or generator axial horizontal horizontally with turbine blade cross section (4X) 8 times Increase the temperature + temperature and temperature control water and liquid metal respectively with the increase ball lifter (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the ratio of critical substances to liquid material Various energy storage cycle combined engine of the power generation method which provided three types of turbines in multiple stages. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing the turbine blade cross section (4X) 9 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + add gravitational acceleration Vertically downward + accelerate the water direction to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of turbines in multiple stages. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 10 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator 5 horizontally in axial direction Increase the temperature + temperature and maintain the temperature control water and liquid metal respectively with the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water as a vacuum direction roll contact liquid metal gravity to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 11 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction Increase the temperature + temperature and maintain the temperature control water and liquid metal respectively with the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water as a vacuum direction roll contact liquid metal gravity to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 12 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator 7 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + add gravitational acceleration Vertically downward + accelerate liquid metal to increase power output Liquid metal gravity opposing turbine Energy storage cycle combination engine of power generation method provided with three types in multiple stages. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various car kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 18 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator axially horizontally 8 In the equipment (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward + specific material is accelerated in the vacuum direction accelerating power generation Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction The temperature control water and liquid metal are raised and stored respectively in the device (2F) + gravity acceleration is added vertically accelerated downward + vacuum direction of water is accelerated to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction Temperature control water and liquid metal respectively in the device (2F) storage + use of gravity acceleration vertical acceleration + downward acceleration of water + vacuum direction acceleration rolling contact to aim at increase of the amount of power generation Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 11 horizontally in axial direction Temperature control water and liquid metal respectively in the device (2F) storage + use of gravity acceleration vertical acceleration + downward acceleration of water + vacuum direction acceleration rolling contact to aim at increase of the amount of power generation Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction The temperature control water and liquid metal are raised and stored respectively using device (2F) + addition of gravitational acceleration Vertical acceleration downward + acceleration of liquid metal to increase power generation capacity Three types of liquid metal gravity opposing turbines are provided in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility equipment method to make the turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Liquid metal gravity opposing turbine 3 types of driving twice the turbine blade cross section (4X) + installation method to make the liquid metal gravity power generation output generating turbine blade about 1/10 water for temperature control respectively with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   3 types of liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + installation method to make liquid metal gravity power generation output generating turbine blade around 1/10 water for temperature control with increasing ball lifter (2F) respectively And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 4 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction (2F) temperature control water and liquid metal respectively rise and save use + addition of gravitational acceleration vertical downward acceleration + specific critical substance in vacuum direction accelerated power generation aiming at increase of generation amount of liquid metal gravity opposing turbine 3 kinds of three kinds provided in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 5 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine and generator 2 horizontally in the axial direction In (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward acceleration + water direction is accelerated in the vacuum direction to increase power generation by providing three types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4X) 6 times the liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 3 horizontally in the axial direction In (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction accelerated rolling contact, and liquid metal gravity opposing turbines are set up in three stages to increase power generation Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing a turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction In (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction accelerated rolling contact, and liquid metal gravity opposing turbines are set up in three stages to increase power generation Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4X) 8 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally in axial direction + increasing ball lifter (2F) Temperature control water and liquid metal respectively rise and store + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Power generation with three types of liquid metal gravity opposing turbine provided in multiple stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 9 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontally 6 Increase the temperature + temperature and temperature control water and liquid metal respectively with the increase ball lifter (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the ratio of critical substances to liquid material Various energy storage cycle combined engine of the power generation method which provided three types of turbines in multiple stages. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 10 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + add gravitational acceleration Vertically downward + accelerate the water direction to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of turbines in multiple stages. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by arranging the turbine blade cross section (4X) 11 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 8 Increase the temperature + temperature and maintain the temperature control water and liquid metal respectively with the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water as a vacuum direction roll contact liquid metal gravity to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in axial direction Increase the temperature + temperature and maintain the temperature control water and liquid metal respectively with the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water as a vacuum direction roll contact liquid metal gravity to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 13 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generation turbine or generator 10 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + add gravitational acceleration Vertically downward + accelerate liquid metal to increase power output Liquid metal gravity opposing turbine Energy storage cycle combination engine of power generation method provided with three types in multiple stages. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various car kind of prime + increase ball lift device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 11 axially horizontally In the equipment (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward + specific material is accelerated in the vacuum direction accelerating power generation Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4X) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction The temperature control water and liquid metal are raised and stored respectively in the device (2F) + gravity acceleration is added vertically accelerated downward + vacuum direction of water is accelerated to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Temperature control water and liquid metal respectively in the device (2F) storage + use of gravity acceleration vertical acceleration + downward acceleration of water + vacuum direction acceleration rolling contact to aim at increase of the amount of power generation Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 2 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator 2 horizontally in the axial direction Temperature control water and liquid metal respectively in the device (2F) storage + use of gravity acceleration vertical acceleration + downward acceleration of water + vacuum direction acceleration rolling contact to aim at increase of the amount of power generation Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4X) 23 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 3 horizontally in axial direction The temperature control water and liquid metal are raised and stored respectively using device (2F) + addition of gravitational acceleration Vertical acceleration downward + acceleration of liquid metal to increase power generation capacity Three types of liquid metal gravity opposing turbines are provided in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility equipment method to make the turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Liquid metal gravity opposing turbine 3 types of driving twice the turbine blade cross section (4X) + installation method to make the liquid metal gravity power generation output generating turbine blade about 1/10 water for temperature control respectively with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   3 types of liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + installation method to make liquid metal gravity power generation output generating turbine blade around 1/10 water for temperature control with increasing ball lifter (2F) respectively And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4X) 5 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction (2F) temperature control water and liquid metal respectively rise and save use + addition of gravitational acceleration vertical downward acceleration + specific critical substance in vacuum direction accelerated power generation aiming at increase of generation amount of liquid metal gravity opposing turbine 3 kinds of three kinds provided in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 6 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction In (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward acceleration + water direction is accelerated in the vacuum direction to increase power generation by providing three types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 7 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 6 In (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction accelerated rolling contact, and liquid metal gravity opposing turbines are set up in three stages to increase power generation Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 8 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction In (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction accelerated rolling contact, and liquid metal gravity opposing turbines are set up in three stages to increase power generation Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) with 9 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontal 8 (2F) Temperature control water and liquid metal respectively rise and store + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Power generation with three types of liquid metal gravity opposing turbine provided in multiple stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 10 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 9 horizontally in axial direction Increase the temperature + temperature and temperature control water and liquid metal respectively with the increase ball lifter (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the ratio of critical substances to liquid material Various energy storage cycle combined engine of the power generation method which provided three types of turbines in multiple stages. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 11 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + add gravitational acceleration Vertically downward + accelerate the water direction to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of turbines in multiple stages. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 12 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator axially horizontal 11 Increase the temperature + temperature and maintain the temperature control water and liquid metal respectively with the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water as a vacuum direction roll contact liquid metal gravity to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 12 horizontal axial direction of liquid metal gravity opposing turbine 3 types + liquid metal gravity power generation turbine or generator with 13 times of turbine blade cross section (4X) Increase the temperature + temperature and maintain the temperature control water and liquid metal respectively with the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water as a vacuum direction roll contact liquid metal gravity to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + add gravitational acceleration Vertically downward + accelerate liquid metal to increase power output Liquid metal gravity opposing turbine Energy storage cycle combination engine of power generation method provided with three types in multiple stages. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing two 20 times liquid metal gravity opposing turbines of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally to increase liquid metal In the equipment (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward + specific material is accelerated in the vacuum direction accelerating power generation Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4X) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 3 horizontally horizontally in the axial direction The temperature control water and liquid metal are raised and stored respectively in the device (2F) + gravity acceleration is added vertically accelerated downward + vacuum direction of water is accelerated to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction Temperature control water and liquid metal respectively in the device (2F) storage + use of gravity acceleration vertical acceleration + downward acceleration of water + vacuum direction acceleration rolling contact to aim at increase of the amount of power generation Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction Temperature control water and liquid metal respectively in the device (2F) storage + use of gravity acceleration vertical acceleration + downward acceleration of water + vacuum direction acceleration rolling contact to aim at increase of the amount of power generation Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 24 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction The temperature control water and liquid metal are raised and stored respectively using device (2F) + addition of gravitational acceleration Vertical acceleration downward + acceleration of liquid metal to increase power generation capacity Three types of liquid metal gravity opposing turbines are provided in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Liquid metal gravity opposing turbine 3 types of driving twice the turbine blade cross section (4X) + installation method to make the liquid metal gravity power generation output generating turbine blade about 1/10 water for temperature control respectively with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   3 types of liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + installation method to make liquid metal gravity power generation output generating turbine blade around 1/10 water for temperature control with increasing ball lifter (2F) respectively And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 5 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 6 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction (2F) temperature control water and liquid metal respectively rise and save use + addition of gravitational acceleration vertical downward acceleration + specific critical substance in vacuum direction accelerated power generation aiming at increase of generation amount of liquid metal gravity opposing turbine 3 kinds of three kinds provided in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 8 In (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward acceleration + water direction is accelerated in the vacuum direction to increase power generation by providing three types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 8 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in axial direction + increasing ball lifter In (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction accelerated rolling contact, and liquid metal gravity opposing turbines are set up in three stages to increase power generation Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) with 9 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction In (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction accelerated rolling contact, and liquid metal gravity opposing turbines are set up in three stages to increase power generation Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 10 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 11 horizontally in the axial direction (2F) Temperature control water and liquid metal respectively rise and store + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Power generation with three types of liquid metal gravity opposing turbine provided in multiple stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing 12 horizontal axial direction of liquid metal gravity counteracting turbine + 3 types + liquid metal gravity power generation turbine or generator with 11 times the turbine blade cross section (4X) Increase the temperature + temperature and temperature control water and liquid metal respectively with the increase ball lifter (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the ratio of critical substances to liquid material Various energy storage cycle combined engine of the power generation method which provided three types of turbines in multiple stages. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + add gravitational acceleration Vertically downward + accelerate the water direction to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of turbines in multiple stages. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing two axial and horizontal liquid metal gravity counteracting turbines + three types of liquid metal gravity opposing turbines with 13 times the cross section of turbine blades (4X) Increase the temperature + temperature and maintain the temperature control water and liquid metal respectively with the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water as a vacuum direction roll contact liquid metal gravity to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 14 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 3 Increase the temperature + temperature and maintain the temperature control water and liquid metal respectively with the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water as a vacuum direction roll contact liquid metal gravity to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing the turbine blade cross section (4X) 15 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 4 horizontally in the axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + add gravitational acceleration Vertically downward + accelerate liquid metal to increase power output Liquid metal gravity opposing turbine Energy storage cycle combination engine of power generation method provided with three types in multiple stages. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction In the equipment (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward + specific material is accelerated in the vacuum direction accelerating power generation Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontally 6 The temperature control water and liquid metal are raised and stored respectively in the device (2F) + gravity acceleration is added vertically accelerated downward + vacuum direction of water is accelerated to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction Temperature control water and liquid metal respectively in the device (2F) storage + use of gravity acceleration vertical acceleration + downward acceleration of water + vacuum direction acceleration rolling contact to aim at increase of the amount of power generation Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade section (4X) 24 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 8 Temperature control water and liquid metal respectively in the device (2F) storage + use of gravity acceleration vertical acceleration + downward acceleration of water + vacuum direction acceleration rolling contact to aim at increase of the amount of power generation Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction The temperature control water and liquid metal are raised and stored respectively using device (2F) + addition of gravitational acceleration Vertical acceleration downward + acceleration of liquid metal to increase power generation capacity Three types of liquid metal gravity opposing turbines are provided in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Liquid metal gravity opposing turbine 3 types of driving twice the turbine blade cross section (4X) + installation method to make the liquid metal gravity power generation output generating turbine blade about 1/10 water for temperature control respectively with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   3 types of liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + installation method to make liquid metal gravity power generation output generating turbine blade around 1/10 water for temperature control with increasing ball lifter (2F) respectively And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 4 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 5 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   6 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + liquid metal gravity generation power generation power generation generating power generation turbine blade about 1/10 water for temperature management with increasing ball lift device (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction (2F) temperature control water and liquid metal respectively rise and save use + addition of gravitational acceleration vertical downward acceleration + specific critical substance in vacuum direction accelerated power generation aiming at increase of generation amount of liquid metal gravity opposing turbine 3 kinds of three kinds provided in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 8 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 11 axially horizontally In (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward acceleration + water direction is accelerated in the vacuum direction to increase power generation by providing three types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 9 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 12 horizontally in axial direction + increasing ball lifter In (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction accelerated rolling contact, and liquid metal gravity opposing turbines are set up in three stages to increase power generation Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 10 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction In (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction accelerated rolling contact, and liquid metal gravity opposing turbines are set up in three stages to increase power generation Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water vertically downward by providing two axial and horizontal liquid metal gravity counteracting turbines + three types of liquid metal gravity opposing turbines with 11 times the blade cross section (4X) + increasing ball lifter (2F) Temperature control water and liquid metal respectively rise and store + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Power generation with three types of liquid metal gravity opposing turbine provided in multiple stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 12 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator axially horizontally 3 Increase the temperature + temperature and temperature control water and liquid metal respectively with the increase ball lifter (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the ratio of critical substances to liquid material Various energy storage cycle combined engine of the power generation method which provided three types of turbines in multiple stages. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by arranging the turbine blade cross section (4X) 13 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine or generator 4 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + add gravitational acceleration Vertically downward + accelerate the water direction to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of turbines in multiple stages. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction Increase the temperature + temperature and maintain the temperature control water and liquid metal respectively with the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water as a vacuum direction roll contact liquid metal gravity to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 15 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 6 horizontally in the axial direction Increase the temperature + temperature and maintain the temperature control water and liquid metal respectively with the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water as a vacuum direction roll contact liquid metal gravity to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in axial direction Increase the temperature + Increase the ball lift device (2F) to raise the temperature control water and liquid metal respectively Save + add gravitational acceleration Vertically downward + accelerate liquid metal to increase power output Liquid metal gravity opposing turbine Energy storage cycle combination engine of power generation method provided with three types in multiple stages. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate 22 × liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + make the entire surface of the plant full power + + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to increase the amount of power generation in the vacuum direction Liquid metal gravity opposing turbine 3 types of Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum 23 times the blade cross section (4X) Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim at increasing power generation 3 types of liquid metal gravity opposing turbines Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output increasing sphere (2E) vertically downward with vacuum 24 times to make the blade cross section (4X) of the turbine blade Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output Various energy storage cycles combined engine of power generation method provided in multiple stages. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method for suctioning and accelerating a 25-fold liquid metal gravity counteracting turbine + three types of liquid metal gravity power generation output increase spheres (2E) vertically downward with vacuum + make the entire surface of the plant full power + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output Various energy storage cycles combined engine of power generation method provided in multiple stages. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three kinds of driving + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum double the turbine blade cross section (4X) + make the whole area factory electrification + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically accelerate downward + accelerate the liquid metal to increase power generation Multi-stage multistage liquid metal gravity opposing turbine 3 types Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three types of drive + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum 3 times the turbine blade cross section (4X) + make the whole area factory electrification + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to increase the amount of power generation in the vacuum direction Liquid metal gravity opposing turbine 3 types of Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate 4 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + make the whole surface of the factory full charge + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim at increasing power generation 3 types of liquid metal gravity opposing turbines Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three kinds of driving + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum 5 times to make the blade cross section (4X) of turbine blade Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output Various energy storage cycles combined engine of power generation method provided in multiple stages. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three kinds of driving + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum 6 times to make the blade cross section (4X) of turbine blade Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output Various energy storage cycles combined engine of power generation method provided in multiple stages. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate 7 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + make the whole surface factory electrification + turbine blade cross section (4X) Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically accelerate downward + accelerate the liquid metal to increase power generation Multi-stage multistage liquid metal gravity opposing turbine 3 types Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 8 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4X) + liquid metal gravitational power generation turbine and generator axially horizontally 8 To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) + save gravity + add gravity vertically downward + increase the amount of critical materials by vacuum Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) with 9 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generating turbine or generator axially horizontal 9 To increase the volume of water and liquid metal by using temperature control and increase the amount of gravity by adding vertical acceleration + to accelerate the water direction to increase power output Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 10 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 10 Increase the temperature of the water and liquid metal by using an increase ball lifter (2F), save the water and liquid metal, add gravity acceleration vertically downward, accelerate the water by vacuum rolling contact, and aim to increase the power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 11 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity power generation turbine and generator axially horizontal with turbine blade cross section (4X) Increase the temperature of the water and liquid metal by using an increase ball lifter (2F), save the water and liquid metal, add gravity acceleration vertically downward, accelerate the water by vacuum rolling contact, and aim to increase the power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 12 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 12 To increase the amount of water and liquid metal for temperature control and increase storage use with gravity increase device (2F) + add gravity acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing a turbine blade cross section (4X) 13 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) + save gravity + add gravity vertically downward + increase the amount of critical materials by vacuum Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing two axial and horizontal liquid metal gravity counteracting turbines + 14 types of liquid metal gravity opposing turbines with 14 times the blade cross section (4X) + various battery drive To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) + save gravity + add gravity vertically downward + increase the amount of critical materials by vacuum Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 3 To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) + save gravity + add gravity vertically downward + increase the amount of critical materials by vacuum Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 4 × 16 liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator horizontally horizontally for turbine blade cross section (4X) + various battery drive To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) + save gravity + add gravity vertically downward + increase the amount of critical materials by vacuum Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 17 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction To increase the volume of water control and water and liquid metal respectively by using an increase ball lifter (2F) + save gravity + add gravity vertically downward + increase the amount of critical materials by vacuum Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in axial direction + various battery drive various To increase the volume of water and liquid metal by using temperature control and increase the amount of gravity by adding vertical acceleration + to accelerate the water direction to increase power output Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction To increase the volume of water and liquid metal by using temperature control and increase the amount of gravity by adding vertical acceleration + to accelerate the water direction to increase power output Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontally 8 To increase the volume of water and liquid metal by using temperature control and increase the amount of gravity by adding vertical acceleration + to accelerate the water direction to increase power output Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontal 9 To increase the volume of water and liquid metal by using temperature control and increase the amount of gravity by adding vertical acceleration + to accelerate the water direction to increase power output Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 10 axially horizontally To increase the volume of water and liquid metal by using temperature control and increase the amount of gravity by adding vertical acceleration + to accelerate the water direction to increase power output Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing a turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generating turbine or generator axially horizontal 11 Increase the temperature of the water and liquid metal by using an increase ball lifter (2F), save the water and liquid metal, add gravity acceleration vertically downward, accelerate the water by vacuum rolling contact, and aim to increase the power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 24 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 12 horizontally in axial direction + various storage battery drive Increase the temperature of the water and liquid metal by using an increase ball lifter (2F), save the water and liquid metal, add gravity acceleration vertically downward, accelerate the water by vacuum rolling contact, and aim to increase the power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 25 times as large as liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generating turbine or generator axially horizontally 1 Increase the temperature of the water and liquid metal by using an increase ball lifter (2F), save the water and liquid metal, add gravity acceleration vertically downward, accelerate the water by vacuum rolling contact, and aim to increase the power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 2 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 2 Increase the temperature of the water and liquid metal by using an increase ball lifter (2F), save the water and liquid metal, add gravity acceleration vertically downward, accelerate the water by vacuum rolling contact, and aim to increase the power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 3 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 3 Increase the temperature of the water and liquid metal by using an increase ball lifter (2F), save the water and liquid metal, add gravity acceleration vertically downward, accelerate the water by vacuum rolling contact, and aim to increase the power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 4 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 4 Increase the temperature of the water and liquid metal by using an increase ball lifter (2F), save the water and liquid metal, add gravity acceleration vertically downward, accelerate the water by vacuum rolling contact, and aim to increase the power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 5 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 5 Increase the temperature of the water and liquid metal by using an increase ball lifter (2F), save the water and liquid metal, add gravity acceleration vertically downward, accelerate the water by vacuum rolling contact, and aim to increase the power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 6 times as large as liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine and generator axially horizontally 6 Increase the temperature of the water and liquid metal by using an increase ball lifter (2F), save the water and liquid metal, add gravity acceleration vertically downward, accelerate the water by vacuum rolling contact, and aim to increase the power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 7 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 7 Increase the temperature of the water and liquid metal by using an increase ball lifter (2F), save the water and liquid metal, add gravity acceleration vertically downward, accelerate the water by vacuum rolling contact, and aim to increase the power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 8 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4X) + liquid metal gravitational power generation turbine and generator axially horizontally 8 Increase the temperature of the water and liquid metal by using an increase ball lifter (2F), save the water and liquid metal, add gravity acceleration vertically downward, accelerate the water by vacuum rolling contact, and aim to increase the power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) with 9 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generating turbine or generator axially horizontal 9 To increase the amount of water and liquid metal for temperature control and increase storage use with gravity increase device (2F) + add gravity acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 10 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 10 To increase the amount of water and liquid metal for temperature control and increase storage use with gravity increase device (2F) + add gravity acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 11 horizontal liquid metal gravity counteracting turbine + 3 types of liquid metal gravity power generation turbine and generator axially horizontal with turbine blade cross section (4X) To increase the amount of water and liquid metal for temperature control and increase storage use with gravity increase device (2F) + add gravity acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 12 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 12 To increase the amount of water and liquid metal for temperature control and increase storage use with gravity increase device (2F) + add gravity acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by installing a turbine blade cross section (4X) 13 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 To increase the amount of water and liquid metal for temperature control and increase storage use with gravity increase device (2F) + add gravity acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+同一水量最大発電量を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing two axial and horizontal liquid metal gravity counteracting turbines + 14 types of liquid metal gravity opposing turbines with 14 times the blade cross section (4X) + various battery drive To increase the number of water and liquid metal for temperature control and increase storage use with gravity increase device (2F) + add gravity acceleration vertically downward + aim to generate the same amount of water with the same amount of water Various energy storage cycles combined engine of power generation method provided in multiple stages. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+同一水量最大発電量を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 3 To increase the number of water and liquid metal for temperature control and increase storage use with gravity increase device (2F) + add gravity acceleration vertically downward + aim to generate the same amount of water with the same amount of water Various energy storage cycles combined engine of power generation method provided in multiple stages. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+同一水量最大発電量を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 4 × 16 liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator horizontally horizontally for turbine blade cross section (4X) + various battery drive To increase the number of water and liquid metal for temperature control and increase storage use with gravity increase device (2F) + add gravity acceleration vertically downward + aim to generate the same amount of water with the same amount of water Various energy storage cycles combined engine of power generation method provided in multiple stages. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に5設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+同一水量最大発電量を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 17 horizontal liquid metal gravity opposed turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator 5 horizontally in the axial direction To increase the number of water and liquid metal for temperature control and increase storage use with gravity increase device (2F) + add gravity acceleration vertically downward + aim to generate the same amount of water with the same amount of water Various energy storage cycles combined engine of power generation method provided in multiple stages. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に6設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+同一水量最大発電量を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 6 horizontally in axial direction + various battery drive various To increase the number of water and liquid metal for temperature control and increase storage use with gravity increase device (2F) + add gravity acceleration vertically downward + aim to generate the same amount of water with the same amount of water Various energy storage cycles combined engine of power generation method provided in multiple stages. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に7設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 7 horizontally in the axial direction Increase the head as much as possible (2F) + increase the ball lifter (2F) to manage temperature and water and liquid metal respectively and save + use gravity acceleration vertically downward + specific critical material in vacuum direction accelerated power generation amount Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter-turbines aiming at increase in multiple stages. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に8設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 20 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 8 horizontally in the axial direction (2F) as much as possible to raise the head + increase ball increase device (2F) temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward acceleration + water acceleration direction by vacuum direction acceleration Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter-turbines aiming at increase in multiple stages. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に9設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 9 horizontally in the axial direction Increase the head as far as possible (2F) + increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + generate water as vacuum direction accelerated rolling contact Various energy storage cycle combined engines of power generation method which is equipped with 3 types of liquid metal gravity counter-turbines in multi-stage aiming to increase quantity. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に10設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 10 horizontally in the axial direction Increase the head as far as possible (2F) + increase the ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + generate water as vacuum direction accelerated rolling contact Various energy storage cycle combined engines of power generation method which is equipped with 3 types of liquid metal gravity counter-turbines in multi-stage aiming to increase quantity. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に11設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 11 horizontally in the axial direction Increase the head as much as possible in 2F + Increase the temperature control water and liquid metal respectively with the increase ball increase device 2F, save and use + add gravity acceleration accelerate vertically downward + accelerate liquid metal to increase power output Various energy storage cycle coalescing engines of power generation method with three types of liquid metal gravity opposing turbines aimed at multistage. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 24 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 12 horizontally in the axial direction In the equipment (2F), temperature control water and liquid metal are respectively elevated and stored + gravity acceleration is added vertically downward + specific material is accelerated in the vacuum direction accelerating power generation Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 horizontally in the axial direction The temperature control water and liquid metal are raised and stored respectively in the device (2F) + gravity acceleration is added vertically accelerated downward + vacuum direction of water is accelerated to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に2設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 2 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 2 Temperature control water and liquid metal respectively in the device (2F) storage + use of gravity acceleration vertical acceleration + downward acceleration of water + vacuum direction acceleration rolling contact to aim at increase of the amount of power generation Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に3設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate liquid metal vertically downward by providing 3 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 3 Temperature control water and liquid metal respectively in the device (2F) storage + use of gravity acceleration vertical acceleration + downward acceleration of water + vacuum direction acceleration rolling contact to aim at increase of the amount of power generation Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に4設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate liquid metal vertically downward by providing 4 horizontal liquid metal gravity opposing turbines 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine and generator axially horizontally 4 The temperature control water and liquid metal are raised and stored respectively using device (2F) + addition of gravitational acceleration Vertical acceleration downward + acceleration of liquid metal to increase power generation capacity Three types of liquid metal gravity opposing turbines are provided in multiple stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 5 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   6 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + liquid metal gravity generation power generation power generation generating power generation turbine blade about 1/10 water for temperature management with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross-section (4X) 10 times with liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing turbine blade cross section (4X) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 13 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally 1 to 12 axially horizontally to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + specific critical material aim to increase the amount of vacuum direction accelerated power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevate the height of the housing and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically downward + accelerate the water direction to increase power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 17 × 1 liquid metal gravity counter opposed turbine 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output liquid metal gravity Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various motor vehicles to make up + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbines and generators are provided horizontally horizontally 1 to 12 to accelerate liquid metal vertically downward + whole surface Use factory electrification + increase ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward + specific critical material to increase the amount of vacuum direction accelerating liquid Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade section (4X) twice as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Use factory electrification + increase ball lift device (2F) to raise temperature control water and liquid metal respectively and save + add gravitational acceleration vertically downward + accelerate water direction to increase power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 3 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use factory electrification + increase ball lift device (2F) to raise temperature control water and liquid metal respectively and use + add gravity acceleration + accelerate vertically downward + aim to increase power generation as vacuum direction accelerated rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate liquid metal vertically downward by providing turbine blade cross section (4X) 4 times as large as liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use factory electrification + increase ball lift device (2F) to raise temperature control water and liquid metal respectively and use + add gravity acceleration + accelerate vertically downward + aim to increase power generation as vacuum direction accelerated rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Use factory electrification + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save + add gravity acceleration vertically downward + accelerate liquid metal to increase power output Liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   6 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + liquid metal gravity generation power generation power generation generating power generation turbine blade about 1/10 water for temperature management with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation water turbine generating method about 1/10 around the water + temperature control water with increasing ball rising device (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing turbine blade cross section (4X) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 13 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generating turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + specific critical material aim to increase the amount of vacuum direction accelerated power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 17 × 1 liquid metal gravity counter opposed turbine 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevate the height of the housing and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically downward + accelerate the water direction to increase power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally in 1 to 12 structure and method to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output liquid metal gravity Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various motor vehicles to make up + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade section (4X) twice as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Using a ball lifter (2F), raise temperature control water and liquid metal respectively and use it + save gravity + add vertical acceleration vertically downward + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 3 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively, and store and use it + add gravity acceleration vertically downward + accelerate the water direction by vacuum to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 4 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 6 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. Use + save gravity + add vertical acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation water turbine generating method about 1/10 around the water + temperature control water with increasing ball rising device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing turbine blade cross section (4X) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 13 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generating turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 16 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing 17 × 1 liquid metal gravity counter opposed turbine 3 types of turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + specific critical material aim to increase the amount of vacuum direction accelerated power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevate the height of the housing and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically downward + accelerate the water direction to increase power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally in 1 to 12 structure and method to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output liquid metal gravity Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various motor vehicles to make up + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) doubled by 2 times liquid metal gravity opposing turbine drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 3 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Using a ball lifter (2F), raise temperature control water and liquid metal respectively and use it + save gravity + add vertical acceleration vertically downward + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 4 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively, and store and use it + add gravity acceleration vertically downward + accelerate the water direction by vacuum to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 6 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. Use + save gravity + add vertical acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation water turbine generating method about 1/10 around the water + temperature control water with increasing ball rising device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 13 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generating turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 16 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 17 × 1 liquid metal gravity opposed turbine three types of turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + specific critical material aim to increase the amount of vacuum direction accelerated power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevate the height of the housing and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically downward + accelerate the water direction to increase power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally in 1 to 12 structure and method to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output liquid metal gravity Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various motor vehicles to make up + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) doubled by 2 times liquid metal gravity opposing turbine drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) tripled Liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 4 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Using a ball lifter (2F), raise temperature control water and liquid metal respectively and use it + save gravity + add vertical acceleration vertically downward + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively, and store and use it + add gravity acceleration vertically downward + accelerate the water direction by vacuum to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 6 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 8 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. Use + save gravity + add vertical acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation water turbine generating method about 1/10 around the water + temperature control water with increasing ball rising device (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engines . タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generating turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 16 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 17 × 1 liquid metal gravity opposed turbine three types of turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + specific critical material aim to increase the amount of vacuum direction accelerated power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally in 1 to 12 structure and method to accelerate liquid metal vertically downward + whole surface Elevate the height of the housing and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically downward + accelerate the water direction to increase power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output liquid metal gravity Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various motor vehicles to make up + increase ball lift device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) doubled by 2 times liquid metal gravity opposing turbine drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) tripled Liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) quadruple liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Using a ball lifter (2F), raise temperature control water and liquid metal respectively and use it + save gravity + add vertical acceleration vertically downward + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 6 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively, and store and use it + add gravity acceleration vertically downward + accelerate the water direction by vacuum to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 8 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 9 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. Use + save gravity + add vertical acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation water turbine generating method about 1/10 around the water + temperature control water with increasing ball rising device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generating turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 16 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 17 × 1 liquid metal gravity opposed turbine three types of turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally in 1 to 12 structure and method to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + specific critical material aim to increase the amount of vacuum direction accelerated power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevate the height of the housing and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically downward + accelerate the water direction to increase power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 24 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output liquid metal gravity Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) doubled by 2 times liquid metal gravity opposing turbine drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) tripled Liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) quadruple liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 6 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Using a ball lifter (2F), raise temperature control water and liquid metal respectively and use it + save gravity + add vertical acceleration vertically downward + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively, and store and use it + add gravity acceleration vertically downward + accelerate the water direction by vacuum to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 8 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 9 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 10 times with liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. Use + save gravity + add vertical acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade approximately 1/10 around water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 16 times liquid metal gravity opposing turbine 3 types driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 17 × 1 liquid metal gravity opposed turbine three types of turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + specific critical material aim to increase the amount of vacuum direction accelerated power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevate the height of the housing and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically downward + accelerate the water direction to increase power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 24 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbines and generators are provided horizontally horizontally 1 to 12 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output liquid metal gravity Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) doubled by 2 times liquid metal gravity opposing turbine drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) tripled Liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) quadruple liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Using a ball lifter (2F), raise temperature control water and liquid metal respectively and use it + save gravity + add vertical acceleration vertically downward + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 8 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively, and store and use it + add gravity acceleration vertically downward + accelerate the water direction by vacuum to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 9 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 10 times with liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. Use + save gravity + add vertical acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade approximately 1/10 around water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade approximately 1/10 around water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing 17 × 1 liquid metal gravity opposed turbine three types of turbine blade cross section (4X) + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + specific critical material aim to increase the amount of vacuum direction accelerated power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Elevate the height of the housing and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically downward + accelerate the water direction to increase power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 24 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbines and generators are provided horizontally horizontally 1 to 12 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade section (4X) twice as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output liquid metal gravity Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) tripled Liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) quadruple liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three types of driving the turbine blade cross section (4X) 8 times + liquid metal gravity power generation output increasing ball (2E) vertically downward with vacuum + increasing ball lifting device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three types of driving turbine blade cross section (4X) 9 times + liquid metal gravity power generation output increasing ball (2E) vertically downward with vacuum + increasing ball lifting device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three types of driving turbine blade cross-section (4X) 10 times + liquid metal gravity power generation output increasing ball (2E) vertically downward with vacuum + increasing ball lifting device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three types of driving the turbine blade cross section (4X) 11 times + liquid metal gravity power generation output increasing ball (2E) vertically downward with vacuum + increasing ball lifting device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of 12 times the turbine blade cross section (4X) + liquid metal gravity power generation output increase sphere (2E) with vacuum in the vertical direction + increase sphere lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of driving 13 times the cross section of turbine blade cross section (4X) + liquid metal gravity power generation output increasing ball (2E) vertically with vacuum + increasing ball lifting device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of driving turbine cross section (4X) 14 times + liquid metal gravity power generation output increasing ball (2E) vertically downward with vacuum + increasing ball lifting device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types + 15 times liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum with turbine blade cross section (4X) with increase sphere lifter (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method to attract and accelerate the liquid pressure and gravity power generation output increase sphere (2E) vertically downward with 16 times liquid metal gravity opposing turbine of turbine blade section (4X) + structure + method with increase sphere lifter (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of suction and acceleration of a liquid metal gravity countering turbine three types of driving the turbine blade cross section (4X) 17 times + liquid metal gravity power generation output increasing ball (2E) vertically downward with vacuum + increasing ball lifting device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + Increase the temperature control water and liquid metal respectively with increase ball lift device (2F) Save + use gravity acceleration vertically accelerate downward + ratio critical substance aim to increase vacuum power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various ships to their full height + Increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + accelerate the water with vacuum direction accelerated rolling contact Increase power output Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + accelerate the water with vacuum direction accelerated rolling contact Increase power output Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + Increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + Increase the temperature control water and liquid metal respectively with increase ball lift device (2F) Save + use gravity acceleration vertically accelerate downward + ratio critical substance aim to increase vacuum power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 24 times as large as liquid metal gravity opposed turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + Increase the temperature control water and liquid metal respectively with increase ball lift device (2F) Save + use gravity acceleration vertically accelerate downward + ratio critical substance aim to increase vacuum power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + Increase the temperature control water and liquid metal respectively with increase ball lift device (2F) Save + use gravity acceleration vertically accelerate downward + ratio critical substance aim to increase vacuum power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade section (4X) twice as large as liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + Increase the temperature control water and liquid metal respectively with increase ball lift device (2F) Save + use gravity acceleration vertically accelerate downward + ratio critical substance aim to increase vacuum power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 3 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + Increase the temperature control water and liquid metal respectively with increase ball lift device (2F) Save + use gravity acceleration vertically accelerate downward + ratio critical substance aim to increase vacuum power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 4 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator axially horizontally 1 to 12 Drive various ships to their full height + Increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various ships to their full height + Increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 6 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator axially horizontally 1 to 12 Drive various ships to their full height + Increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various ships to their full height + Increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 8 times as large as liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various ships to their full height + Increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 9 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + accelerate the water with vacuum direction accelerated rolling contact Increase power output Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 10 times as large as liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + accelerate the water with vacuum direction accelerated rolling contact Increase power output Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + accelerate the water with vacuum direction accelerated rolling contact Increase power output Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + accelerate the water with vacuum direction accelerated rolling contact Increase power output Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 13 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + accelerate the water with vacuum direction accelerated rolling contact Increase power output Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + accelerate the water with vacuum direction accelerated rolling contact Increase power output Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 15 times liquid metal gravity opposed turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + accelerate the water with vacuum direction accelerated rolling contact Increase power output Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + accelerate the water with vacuum direction accelerated rolling contact Increase power output Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 17 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + accelerate the water with vacuum direction accelerated rolling contact Increase power output Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + accelerate the water with vacuum direction accelerated rolling contact Increase power output Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + Increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + Increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + Increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + Increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various vessels to the full rise + Increase ball lift device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 24 times as large as liquid metal gravity opposed turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various ships to their peak + Increase the ball and lift device (2F) to raise temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + liquid metal gravity opposite to aim at maximum power generation of the same water Various energy storage cycle combined engine of the power generation method which provided three types of turbines in multiple stages. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 25 times as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator axially horizontally 1 to 12 Drive various ships to their peak + Increase the ball and lift device (2F) to raise temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + liquid metal gravity opposite to aim at maximum power generation of the same water Various energy storage cycle combined engine of the power generation method which provided three types of turbines in multiple stages. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade section (4X) twice as large as liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various ships to their peak + Increase the ball and lift device (2F) to raise temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + liquid metal gravity opposite to aim at maximum power generation of the same water Various energy storage cycle combined engine of the power generation method which provided three types of turbines in multiple stages. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 3 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Drive various ships to their peak + Increase the ball and lift device (2F) to raise temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + liquid metal gravity opposite to aim at maximum power generation of the same water Various energy storage cycle combined engine of the power generation method which provided three types of turbines in multiple stages. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 4 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator axially horizontally 1 to 12 Drive various ships to their peak + Increase the ball and lift device (2F) to raise temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + liquid metal gravity opposite to aim at maximum power generation of the same water Various energy storage cycle combined engine of the power generation method which provided three types of turbines in multiple stages. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) increases the drop + increases ball rising device (2F) for temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward accelerate + ratio critical substance vacuum direction acceleration power output increase Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4X) 6 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator axially horizontally 1 to 12 Lifting device (2F) Increases the drop + Increases the temperature control water and liquid metal respectively with rising device (2F) Save and use + Add gravity acceleration Vertically accelerate downward + Accelerate water direction to increase power generation Various energy storage cycle combined engines of power generation method which is provided with three types of liquid metal gravity counter-turbines aimed at in multiple stages. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) Increases the drop + Increases the temperature control water and liquid metal respectively with rising device (2F) Save and use + Add gravity acceleration Vertically accelerate + Increase water generation as vacuum direction accelerated rolling contact Various energy storage cycle coalescing engines of power generation method with three types of liquid metal gravity opposing turbines aimed at multistage. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 8 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generating turbine or generator 1 to 12 axially horizontally Lifting device (2F) Increases the drop + Increases the temperature control water and liquid metal respectively with the lifting device 2F Various energy storage cycle coalescing engines of power generation method with three types of liquid metal gravity opposing turbines aimed at multistage. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) with 9 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) Increases the drop + Increases the temperature control water and liquid metal respectively with rising device (2F) Save + use gravity + Add vertical acceleration + Accelerate liquid metal to increase power output Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter opposed turbines in multiple stages. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 10 times with liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Using a ball lifter (2F), raise temperature control water and liquid metal respectively and use it + save gravity + add vertical acceleration vertically downward + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively, and store and use it + add gravity acceleration vertically downward + accelerate the water direction by vacuum to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine and generator are provided horizontally horizontally by 1 to 12 structure and method of accelerating liquid metal downward downward Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. Use + save gravity + add vertical acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade approximately 1/10 around water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade approximately 1/10 around water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   19 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature control with increasing ball lift device (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 23 times liquid metal gravity opposed turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 24 times as large as liquid metal gravity opposing turbine 3 types driven + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbines and generators are provided horizontally horizontally 1 to 12 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + specific critical material aim to increase the amount of vacuum direction accelerated power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade section (4X) twice as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevate the height of the housing and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically downward + accelerate the water direction to increase power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 3 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate liquid metal vertically downward by providing turbine blade cross section (4X) 4 times as large as liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output liquid metal gravity Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 6 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Using a ball lifter (2F), raise temperature control water and liquid metal respectively and use it + save gravity + add vertical acceleration vertically downward + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively, and store and use it + add gravity acceleration vertically downward + accelerate the water direction by vacuum to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine and generator are provided horizontally horizontally by 1 to 12 structure and method to accelerate liquid metal downward + increase Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. Use + save gravity + add vertical acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade approximately 1/10 around water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   19 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature control with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility equipment method to make the turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 23 times liquid metal gravity opposed turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 24 times as large as liquid metal gravity opposing turbine 3 types driven + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade section (4X) twice as large as liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + specific critical material aim to increase the amount of vacuum direction accelerated power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 3 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevate the height of the housing and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically downward + accelerate the water direction to increase power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate liquid metal vertically downward by providing turbine blade cross section (4X) 4 times as large as liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 6 times as large as liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output liquid metal gravity Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 7 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 12 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Using a ball lifter (2F), raise temperature control water and liquid metal respectively and use it + save gravity + add vertical acceleration vertically downward + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine and generator are provided horizontally horizontally by 1 to 12 structure and method to accelerate liquid metal downward + increase Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively, and store and use it + add gravity acceleration vertically downward + accelerate the water direction by vacuum to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. Use + save gravity + add vertical acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   19 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature control with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility equipment method to make the turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 23 times liquid metal gravity opposed turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 24 times as large as liquid metal gravity opposing turbine 3 types driven + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) twice as many liquid metal gravity opposing turbines 3 types of drive + liquid metal gravity power generation turbines and generators axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 3 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + specific critical material aim to increase the amount of vacuum direction accelerated power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate liquid metal vertically downward by providing turbine blade cross section (4X) 4 times as large as liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevate the height of the housing and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically downward + accelerate the water direction to increase power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 6 times as large as liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output liquid metal gravity Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind of prime + increase ball lift device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various car kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times liquid metal gravity countering turbine 3 types drive + liquid metal gravity power generation turbine and generator are provided horizontally horizontally by 1 to 12 structure and method to accelerate liquid metal downward + increase Using a ball lifter (2F), raise temperature control water and liquid metal respectively and use it + save gravity + add vertical acceleration vertically downward + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively, and store and use it + add gravity acceleration vertically downward + accelerate the water direction by vacuum to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing the turbine blade cross section (4X) 17 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. Use + save gravity + add vertical acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   19 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature control with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility equipment method to make the turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 23 times liquid metal gravity opposed turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 24 times as large as liquid metal gravity opposing turbine 3 types driven + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) twice as many liquid metal gravity opposing turbines 3 types of drive + liquid metal gravity power generation turbines and generators axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4X) 3 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate liquid metal vertically downward by providing turbine blade cross section (4X) 4 times as large as liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + specific critical material aim to increase the amount of vacuum direction accelerated power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevate the height of the housing and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically downward + accelerate the water direction to increase power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 6 times as large as liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbines and generators are provided horizontally horizontally 1 to 12 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output liquid metal gravity Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 9 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various car kind of prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Using a ball lifter (2F), raise temperature control water and liquid metal respectively and use it + save gravity + add vertical acceleration vertically downward + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively, and store and use it + add gravity acceleration vertically downward + accelerate the water direction by vacuum to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing the turbine blade cross section (4X) 17 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. Use + save gravity + add vertical acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   19 times liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) + liquid metal gravity generation power generation power generation generating method of turbine blade around 1/10 water for temperature control with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility equipment method to make the turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 24 times as large as liquid metal gravity opposing turbine 3 types driven + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) twice as many liquid metal gravity opposing turbines 3 types of drive + liquid metal gravity power generation turbines and generators axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4X) 3 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 4 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + specific critical material aim to increase the amount of vacuum direction accelerated power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 6 times as large as liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevate the height of the housing and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically downward + accelerate the water direction to increase power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbines and generators are provided horizontally horizontally 1 to 12 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) with 9 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output liquid metal gravity Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various car kind of prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various car kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 15 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Using a ball lifter (2F), raise temperature control water and liquid metal respectively and use it + save gravity + add vertical acceleration vertically downward + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively, and store and use it + add gravity acceleration vertically downward + accelerate the water direction by vacuum to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing the turbine blade cross section (4X) 17 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. Use + save gravity + add vertical acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility equipment method to make the turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility equipment method to make the turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by providing a turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) twice as many liquid metal gravity opposing turbines 3 types of drive + liquid metal gravity power generation turbines and generators axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4X) 3 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 4 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 6 times as large as liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + specific critical material aim to increase the amount of vacuum direction accelerated power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevate the height of the housing and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically downward + accelerate the water direction to increase power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbines and generators are provided horizontally horizontally 1 to 12 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) with 9 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbines and generators are provided horizontally horizontally 1 to 12 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output liquid metal gravity Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 11 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various car kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various car kind of prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 16 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Using a ball lifter (2F), raise temperature control water and liquid metal respectively and use it + save gravity + add vertical acceleration vertically downward + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing the turbine blade cross section (4X) 17 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively, and store and use it + add gravity acceleration vertically downward + accelerate the water direction by vacuum to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally by 1 to 12 structures and methods to accelerate liquid metal downward + increase Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. Use + save gravity + add vertical acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility equipment method to make the turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) twice as many liquid metal gravity opposing turbines 3 types of drive + liquid metal gravity power generation turbines and generators axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4X) 3 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 4 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4X) 6 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + specific critical material aim to increase the amount of vacuum direction accelerated power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbines and generators are provided horizontally horizontally 1 to 12 to accelerate liquid metal vertically downward + whole surface Elevate the height of the housing and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically downward + accelerate the water direction to increase power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) with 9 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbines and generators are provided horizontally horizontally 1 to 12 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output liquid metal gravity Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 12 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various car kind of prime + increase ball lift device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various car kind of prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing the turbine blade cross section (4X) 17 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Using a ball lifter (2F), raise temperature control water and liquid metal respectively and use it + save gravity + add vertical acceleration vertically downward + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 18 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively, and store and use it + add gravity acceleration vertically downward + accelerate the water direction by vacuum to increase the amount of power generation Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 19 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 20 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbine and generator are provided horizontally horizontally by 1 to 12 structures and methods to accelerate liquid metal downward + increase Use a ball lifter (2F) to raise the temperature control water and liquid metal, respectively. + Save and use gravity + add vertical acceleration vertically downward + accelerate the water in a vacuum direction. Various energy storage cycle combination engine of power generation method provided in multiple stages. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 21 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Use a ball lifter (2F) to raise temperature control water and liquid metal, respectively. Use + save gravity + add vertical acceleration vertically downward + accelerate liquid metal to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 22 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation power generation power generation turbine blade about 1/10 around water + temperature control water with increasing ball lifter (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing power generation of liquid metal gravity counter-turbine three kinds of power generation method of various multistage energy storage cycle combined engine . タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 23 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + water direction accelerating vacuum direction to increase power generation various liquid metal gravity opposing turbines Various types of energy storage cycle combining engine of power generation method provided with three types of multistage . タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 24 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation generation facility equipment method to make the turbine blade around 1/10 water for temperature management with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 25 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around the water + temperature control water with increasing ball lift device (2F) And liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + water direction vacuum direction acceleration rolling contact to aim at increasing the amount of power generation liquid metal gravity opposing turbines organ. タービン翼断面(4X)を2倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Liquid metal gravity opposing turbine 3 types of driving twice the turbine blade cross section (4X) + installation method to make the liquid metal gravity power generation output generating turbine blade about 1/10 water for temperature control respectively with increasing ball lift device (2F) And liquid metal rising storage use + gravity acceleration added vertically downward acceleration + liquid metal acceleration to increase the output by aiming to increase the power generation capacity Various energy storage cycle combined engine of power generation method provided with three types of liquid metal gravity opposing turbine. タービン翼断面(4X)を3倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4X) 3 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively, save and use + add gravity acceleration vertically downward + specific material for vacuum direction accelerated power generation aiming to increase the amount of power generation of liquid metal gravity opposing turbine 3 types of multistage Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を4倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 4 times the liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively Save + use gravity acceleration + vertically downward acceleration + vacuum direction to accelerate water to increase power output Various energy storage cycle combination engine of the power generation method provided. タービン翼断面(4X)を5倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 5 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を6倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating the water vertically downward by arranging the turbine blade cross section (4X) 6 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generating turbine or generator axially horizontally 1 to 12 Lift the temperature control water and liquid metal respectively in the ascent device (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the water direction by vacuum direction roll contact Three liquid metal gravity opposed turbines aiming at increased output Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を7倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating water vertically downward by providing a turbine blade cross section (4X) 7 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Lifting device (2F) to raise temperature control water and liquid metal respectively and save + use gravity acceleration vertically downward + accelerate liquid metal to increase power generation by providing 3 types of liquid metal gravity opposing turbines in multiple stages Energy storage cycle combined engine of different power generation methods. タービン翼断面(4X)を8倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 8 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbines and generators are provided horizontally horizontally 1 to 12 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + specific critical material aim to increase the amount of vacuum direction accelerated power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を9倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) with 9 times liquid metal gravity opposing turbine 3 types of drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevate the height of the housing and increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration vertically downward + accelerate the water direction to increase power generation liquid metal Various energy storage cycle combined engine of power generation method provided with three types of gravity opposing turbines in multiple stages. タービン翼断面(4X)を10倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 10 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation turbines and generators are provided horizontally horizontally 1 to 12 to accelerate liquid metal vertically downward + whole surface Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を11倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing a turbine blade cross section (4X) 11 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally. Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + increase the amount of power as vacuum direction accelerated rolling contact water Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in multiple stages. タービン翼断面(4X)を12倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 12 times as large as liquid metal gravity opposing turbine 3 types driven + liquid metal gravity power generation turbine or generator axially horizontally 1 to 12 Elevated housing prime + increase ball lift device (2F) to raise temperature control water and liquid metal respectively save use + add gravity acceleration vertically downward + accelerate liquid metal to increase power output liquid metal gravity Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in multiple stages. タービン翼断面(4X)を13倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 13 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を14倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 14 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various car kind of prime + increase ball lift device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を15倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 15 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を16倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 16 times liquid metal gravity countering turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を17倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 17 times liquid metal gravity opposing turbine 3 types of drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automotive parts + increase ball lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を18倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The configuration and method to attract and accelerate the liquid pressure and gravity power generation output increase sphere (2E) vertically downward with 18 times liquid metal gravity opposing turbine of turbine blade cross section (4X) + structure + method with increase sphere lifter (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を19倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method to attract and accelerate the liquid pressure and gravity power generation output increase sphere (2E) vertically downward with 19 times liquid metal gravity opposing turbine of the turbine blade section (4X) + structure + method with increase sphere lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を20倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of driving 20 times the blade cross section of turbine blade section (4X) + liquid metal gravity power generation output increasing ball (2E) vertically with vacuum + increasing ball lifting device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を21倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   The structure and method of suctioning and accelerating the vertical section of the turbine blade section (4X) 21 times the liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output increasing ball (2E) vertically with vacuum + increasing ball lifting device (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を22倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three types of driving the turbine blade cross section (4X) 22 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal is aimed at increasing the amount of power generation Various energy of power generation method provided with 3 types of liquid metal gravity opposing turbines in multiple stages Preservation cycle union agency. タービン翼断面(4X)を23倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine three types of driving the turbine blade cross section (4X) 23 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F) Temperature control water and liquid metal rising and storing + using gravity acceleration + vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Various kinds of power generation methods provided with three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を24倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of driving turbine cross section (4X) 24 times + liquid metal gravity power generation output increasing sphere (2E) vertically with vacuum + increasing sphere lifting device (2F) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward vertically + water is accelerated in the vacuum direction to increase power output Various types of power generation methods using three types of liquid metal gravity opposing turbines in multiple stages Energy Conservation Cycle Coalition Agency. タービン翼断面(4X)を25倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of 25 times the turbine blade cross section (4X) + liquid metal gravity power generation output increase sphere (2E) vertically with vacuum + increase sphere lifter (2F) Each use of temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + vacuum direction accelerating rolling contact to increase power output aiming at increasing the amount of power generation Various energy conservation cycle union engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction accelerated rolling contact A liquid metal gravity opposing turbine aimed at increasing the output is provided with three types in one stage Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal to increase power generation power generation method provided with 3 types of liquid metal gravity opposing turbines in 2 stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase The various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity countering turbines which aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation The various energy storage cycle combined engines of the power generation method which provided liquid metal gravity countering three types of three aiming at liquid metal gravity aiming. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method that is equipped with 5 types of liquid metal gravity opposing turbines aiming to increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle combined engines of power generation method that is equipped with three types of liquid metal gravity opposing turbines aimed at increase in six stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method provided with 7 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase The various energy storage cycle combined engines of the power generation method which set the liquid metal gravity countering turbine three kinds aiming at 8 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase The various energy storage cycle combined engines of the power generation method which set liquid metal gravity countering three kinds of turbines aimed at 9 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase The various energy storage cycle combined engines of the power generation method provided with 10 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase The various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity opposing turbines aiming at the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase The various energy storage cycle combined engines of the power generation method provided with 12 stages of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation The various energy storage cycle combined engines of the power generation method provided with 13 types of liquid metal gravity counter-turbine 3 types aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation The various energy storage cycle combined engines of the power generation method provided with 14 stages of liquid metal gravity counter-turbine 3 types aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation The various energy storage cycle combined engines of the power generation method provided with 15 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation The various energy storage cycle combined engines of the power generation method provided with 16 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation The various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity countering turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method which is equipped with 18 types of liquid metal gravity opposing turbines aimed at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method which is equipped with three types of liquid metal gravity counter-turbines aiming at increase in 19 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method which is provided with 20 types of liquid metal gravity opposing turbines aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle combined engines of power generation method that is equipped with 21 types of liquid metal gravity counter-turbine 3 types aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle combined engines with power generation method with 22 stages of liquid metal gravity opposing turbines aimed at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method which is provided with 23 types of liquid metal gravity opposing turbines aiming to increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method which set up 24 types of liquid metal gravity opposing turbines aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle combined engines of power generation method that is equipped with 25 types of liquid metal gravity opposing turbines aiming to increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle coalescing engines with power generation method with 26 stages of liquid metal gravity opposing turbines aimed at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method which is provided with 27 types of liquid metal gravity counter-turbines aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines with power generation method with 28 stages of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines with power generation method with 29 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines with power generation method with 30 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines with power generation method with 31 stages of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines with power generation method that is equipped with 32 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engines with power generation method with 33 types of gravity opposing turbines provided in 33 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engines with power generation method with 34 stages of gravity opposed turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engine of the power generation method provided with 35 stages of gravity opposing turbines in 35 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engine of power generation method provided with 36 stages of gravity opposing turbines in 36 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engine of the power generation method provided with 37 types of gravity opposing turbines in 37 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature increase with rising ball rising device (2F) + rising ball rising device (2F) for temperature control water and liquid metal rising and saving use + adding gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation amount Various energy conservation cycle combined engines of power generation method which is provided with 38 types of liquid metal gravity opposing turbines aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rising ball rising device (2F) + rising ball rising device (2F) for rising storage and use of liquid metal and gravity + adding gravity acceleration vertically downward + acceleration of water in vacuum direction to generate power Various energy conservation cycle combined engines of power generation method which is equipped with 39 types of liquid metal gravity counter-turbine 3 types aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rise and fall + increase and rise device (2F) in the increase ball lift device (2F) save and use + add gravity acceleration vertically accelerated + water power generation as vacuum direction accelerated rolling contact Various energy storage cycle coalescing engines with power generation method equipped with 40 stages of liquid metal gravity opposed turbines aiming to increase volume. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rise and fall + increase and rise device (2F) in the increase ball lift device (2F) save and use + add gravity acceleration vertically accelerated + water power generation as vacuum direction accelerated rolling contact Various energy storage cycle coalescing engines with power generation method equipped with 3 types of liquid metal gravity counter-turbines with 41 stages aiming to increase volume. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rising ball rising device (2F) with rising ball rising device (2F) rising storage use of water and liquid metal respectively + adding gravity acceleration vertically accelerating + liquid metal acceleration to increase power output The various energy storage cycle combined engines of the power generation method provided with 42 stages of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine The various energy storage cycle united engines of the power generation method provided in 43 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine The various energy conservation cycle combined engines of the power generation method provided in 44 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engine of power generation method provided in 45 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided in 46 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 47 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation of various types of energy storage method of power generation method provided with 48 types of liquid metal gravity opposing turbine Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal ascend storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase power generation Various energy conservation of power generation method provided with 49 types of liquid metal gravity opposing turbines Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction acceleration rolling contact with the roll to make the amount of power generation aim to increase the amount of power generation various energy generation method of the power generation method provided with three types of 50 Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with liquid metal Gravity opposing turbine 3 types of liquid metal gravity countering turbine provided with 51 types of various energy of energy generation method Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power output Various energy storage cycles of the power generation method provided with 52 types of liquid metal gravity opposing turbines Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to increase the amount of power generation in the vacuum direction Liquid metal gravity opposing turbine 3 types of Various energy conservation cycle combined engine of the power generation method provided in 53 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim at increasing power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engines of the power generation method provided in 54 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycle united engines of the power generation method provided in 55 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy conservation cycle combined engines of the power generation method provided in 56 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 57 3 types of liquid metal gravity opposing turbines Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines with power generation method with 58 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines with power generation method with 59 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines with power generation method with 60 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 61 types of liquid metal gravity counter-turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in 62 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation of the liquid metal gravity opposing turbine power generation provided with three types of 63 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored. + Gravity acceleration is added. Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase power generation. How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction accelerated rolling contact, 3 types of liquid metal gravity opposing turbines are provided in 65 stages to increase power output Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Temperature control water and liquid metal are used for rising and storage + addition of gravity acceleration + downward vertical acceleration + water direction for vacuum direction accelerated rolling contact to increase power generation with 3 types of liquid metal gravity opposed turbines provided in 66 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature and temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal to increase power generation power generation method with three types of liquid metal gravity opposing turbine provided in 67 stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine The various energy storage cycle united engines of the power generation method provided in 68 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine The various energy storage cycle united engines of the power generation method provided in 69 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided in 70 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided in 71 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 72 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation of various types of energy storage method of the liquid metal gravity opposing turbine three types of power generation method provided in 73 stages Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + vacuum direction of water acceleration to increase power generation Various energy conservation of the power generation method provided with three types of liquid metal gravity opposed turbine in 74 stages Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration vertically downward acceleration + vacuum direction acceleration rolling contact with the aim of increasing the amount of power generation as liquid metal gravity opposing turbine 3 types of power generation method provided with 75 types of power generation method Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with liquid metal Gravity opposing turbine 3 types of liquid metal gravity countering turbine provided with 76 types of various energy of energy generation method Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power output Various energy conservation cycles of the power generation method provided with three types of liquid metal gravity opposing turbine in 77 stages Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to increase the amount of power generation in the vacuum direction Liquid metal gravity opposing turbine 3 types of Various energy conservation cycle combined engine of the power generation method provided in 78 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim at increasing power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 79 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycle united engines of the power generation method provided in 80 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycle united engines of the power generation method provided in 81 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine 82 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines with power generation method with 83 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines with power generation method with 84 stages of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines with power generation method with 85 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines with power generation method with 86 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in 87 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation of liquid metal gravity opposing turbine power generation provided with three types of 88 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward accelerated + water is accelerated in vacuum direction to increase power generation power generation provided with 89 types of liquid metal gravity opposing turbines in 89 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) 90 types of liquid metal gravity counter-turbine aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in vacuum direction accelerating rolling contact Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction accelerating rolling contact with 3 types of liquid metal gravity opposing turbines are provided in 91 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature and temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal to increase power generation power generation method with 92 types of liquid metal gravity opposing turbines provided in 92 stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine The various energy conservation cycle combined engine of the power generation method provided in 93 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine The various energy storage cycle united engines of the power generation method provided in 94 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engine of the power generation method provided in 95 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle combined engine of the power generation method provided in 96 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines Energy storage cycle combination engine of power generation method provided in 97 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation of various types of energy storage method of power generation method provided with three types of liquid metal gravity opposing turbine Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + vacuum direction of water to accelerate power generation to increase power generation Various energy conservation of power generation method provided with three types of liquid metal gravity opposing turbine in 99 stages Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with liquid metal gravity counter power turbine aiming to increase the amount of generation Various energy of the power generation method provided with three types of 100 stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction acceleration rolling contact with the roll to make the amount of power generation aim to increase the amount of power generation various energy generation method of the power generation method provided with three types of 101 Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power output Various energy conservation cycles of power generation method provided with three types of liquid metal gravity opposing turbine in 102 stages Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to increase the amount of power generation in the vacuum direction Liquid metal gravity opposing turbine 3 types of Various energy conservation cycle combined engine of the power generation method provided in 103 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim at increasing power generation 3 types of liquid metal gravity opposing turbines The various energy storage cycle united engines of the power generation method provided in 104 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycle united engines of the power generation method provided in 105 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycle united engines of the power generation method provided in 106 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbine 107 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines with power generation method with 108 stages of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of the power generation method provided with three stages of liquid metal gravity opposing turbines in 109 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with three types of liquid metal gravity opposing turbines aimed at in 110 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 111 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in 112 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation of the liquid metal gravity opposing turbine 3 types of power generation provided with 113 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored. + Gravity acceleration is added. Vertical acceleration is accelerated downward + water is accelerated in the vacuum direction to increase power generation. How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + water accelerating in vacuum direction rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbines are provided in 115 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + water accelerating in vacuum direction rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbines are provided in 116 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Temperature and temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal to increase power generation power generation method provided with three types of liquid metal gravity opposing turbines in 117 stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine The various energy storage cycle united engines of the power generation method provided in 118 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine The various energy storage cycle united engines of the power generation method provided in 119 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engine of the power generation method provided with 120 kinds of types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle combined engine of the power generation method provided with the type in one stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines Various energy storage cycle united engines of power generation method provided in two stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation of various types of energy storage method of power generation method provided with three types of liquid metal gravity opposing turbine Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + vacuum direction of water to accelerate power generation to increase power generation Various energy conservation of power generation method provided with four types of liquid metal gravity opposing turbine Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with liquid metal Gravity opposing turbine 3 types of liquid metal gravity opposing turbines Various power generation methods of power generation method provided with five stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with liquid metal gravity counter power turbine aiming to increase the amount of generation Various energy generation method of the power generation method provided with three types of six Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power output Various energy conservation cycles of power generation method provided with three types of liquid metal gravity counter turbine in seven stages Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to increase the amount of power generation in the vacuum direction Liquid metal gravity opposing turbine 3 types of Various energy conservation cycle combined engine of the power generation method provided in 8 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim at increasing power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 9 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycle united engines of the power generation method provided in 10 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycle united engines of the power generation method provided in 11 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 12 types of liquid metal gravity opposing turbine 12 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines with power generation method with 13 types of liquid metal gravity opposing turbines provided in 13 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of the power generation method provided with 14 stages of liquid metal gravity opposing turbines in 14 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines with power generation method that is equipped with 15 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 16 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in 17 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Temperature control water and liquid metal respectively rise + save using gravity + add gravity acceleration + accelerate downward vertically + specific critical material vacuum direction accelerating power generation aiming to increase the amount of power generation 18 generations of liquid metal gravity opposing turbines provided with 18 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward accelerated + water is accelerated in vacuum direction to increase power generation power generation equipped with three types of liquid metal gravity opposing turbines in 19 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Temperature control water and liquid metal are used for rising and storage + addition of gravity acceleration + downward vertical acceleration + water direction for vacuum direction accelerated rolling contact to increase power generation with 3 types of liquid metal gravity opposing turbines provided in 20 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction accelerated rolling contact with liquid metal gravity opposing turbines Three types of liquid metal gravity opposing turbines are provided in 21 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature and temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal to increase power generation power generation method provided with three types of liquid metal gravity opposing turbines in 22 stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine The various energy storage cycle united engines of the power generation method provided in 23 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine The various energy conservation cycle combined engines of the power generation method provided in 24 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engine of the power generation method provided with the type in 25 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided in 26 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 27 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation of various types of energy saving method of 28 generation of liquid metal gravity opposing turbine Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + vacuum direction of water to accelerate power generation to increase power generation Various energy conservation of the power generation method provided with three types of liquid metal gravity opposing turbine in 29 stages Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction roll contact to aim at increasing the amount of power generation various liquid metal gravity opposing turbine Various energy of the power generation method provided with 30 stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction acceleration rolling contact with the roll to make the amount of electricity generation aim to increase the amount of generation Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power output Various energy conservation cycles of the power generation method provided with 32 types of liquid metal gravity opposing turbines Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to increase the amount of power generation in the vacuum direction Liquid metal gravity opposing turbine 3 types of Various energy conservation cycle combined engine of the power generation method provided in 33 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim at increasing power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 34 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycles combined engine of the power generation method provided in 35 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy conservation cycle combined engines of the power generation method provided in 36 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbine 37 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines with power generation method with 38 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of the power generation method provided with 39 types of liquid metal gravity opposing turbines in 39 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines with power generation method with 40 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method which provided three stages of liquid metal gravity opposing turbines aimed at in 41 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of the power generation method which provided three stages of metal gravity opposing turbines in 42 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation of liquid metal gravity opposing turbine power generation provided with three types of 43 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F ) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward accelerated + water is accelerated in the vacuum direction to increase power generation Power generation with three types of liquid metal gravity opposed turbines in 44 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Temperature control water and liquid metal are used for rising and storage + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction for rolling contact with the liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbines are provided in 45 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Temperature control water and liquid metal are used for rising and storage + addition of gravity acceleration + downward vertical acceleration + water direction for vacuum direction accelerated rolling contact to increase power generation by providing 3 types of liquid metal gravity opposing turbines in 46 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Temperature and temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal to increase power generation power generation method provided with 3 types of liquid metal gravity opposing turbines in 47 stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine The various energy storage cycle united engines of the power generation method provided in 48 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine The various energy storage cycles combined engine of the power generation method provided in 49 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engine of the power generation method provided with 50 kinds of types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engine of the power generation method provided with 51 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 52 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation of various types of energy storage method of the power generation method provided with three types of liquid metal gravity opposing turbine Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + vacuum direction of water acceleration to increase power generation Various energy conservation of the power generation method provided with 54 types of liquid metal gravity opposing turbine Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction acceleration rolling contact with the roll to make the amount of power generation aim to increase power generation various energy generation method of the power generation method provided with 55 stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction acceleration rolling contact with the roll to make the amount of power generation aim to increase the amount of power generation of various methods of power generation method of 56 stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power output Various energy conservation cycles of the power generation method provided with three types of liquid metal gravity opposing turbine in 57 stages Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to increase the amount of power generation in the vacuum direction Liquid metal gravity opposing turbine 3 types of Various energy conservation cycle combined engine of the power generation method provided in 58 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim at increasing power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 59 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycle united engines of the power generation method provided in 60 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycle united engines of the power generation method provided in 61 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbine 62 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of the power generation method provided with 63 types of liquid metal gravity opposing turbines in 63 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines with power generation method with 64 types of liquid metal gravity opposing turbines provided in 64 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 65 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 3 types of liquid metal gravity counter-turbine aimed at 66 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in 67 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation of the liquid metal gravity opposing turbine power generation equipped with three types of 68 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + vertical direction of water is accelerated to increase power output How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction accelerated rolling contact to increase power generation by providing 3 types of liquid metal gravity opposing turbines in 70 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction accelerating rolling contact with 3 types of liquid metal gravity opposing turbines in 71 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature and temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal to increase power generation power generation method provided with three types of liquid metal gravity opposing turbines in 72 stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine The various energy storage cycle united engines of the power generation method provided in 73 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine The various energy conservation cycle combined engines of the power generation method provided in 74 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engine of the power generation method provided with the type in 75 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided in 76 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines Various energy storage cycle united engines of the power generation method provided in 77 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation of various types of energy saving method of power generation method provided with three types of liquid metal gravity opposing turbine Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase power output Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction acceleration rolling contact with the roll to aim at increasing the amount of power generation various liquid metal gravity opposing turbine Various energy of the power generation method provided with 80 stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction roll contact to aim at increasing the amount of power generation Various liquid energy of energy generation method provided with 81 types of liquid metal gravity opposing turbine Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Various energy storage cycles of the power generation method provided with 82 types of liquid metal gravity opposing turbines Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to increase the amount of power generation in the vacuum direction Liquid metal gravity opposing turbine 3 types of Various energy conservation cycle combined engine of the power generation method provided in 83 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim at increasing power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 84 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycle united engines of the power generation method provided in 85 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output There are 86 stages of power generation methods of various energy storage cycles combined engine. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbine 87 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines with power generation method with 88 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines with power generation method with 89 stages of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 90 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which is provided with 91 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in 92 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of power generation of the liquid metal gravity opposing turbine 93 types of power generation provided with 93 types How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F ) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward accelerated + water is accelerated in vacuum direction to increase power generation power generation provided with 94 types of liquid metal gravity opposing turbines in 94 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal are used for rising storage + addition of gravitational acceleration vertical downward acceleration + water direction for vacuum direction acceleration rolling contact to increase power generation with 3 types of liquid metal gravity opposing turbines provided in 95 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water is accelerated by vacuum direction rolling contact with liquid metal gravity opposing turbine 3 types of 96 types of liquid metal gravity opposing turbines are provided Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal to increase power generation power generation method provided with three types of liquid metal gravity opposing turbines in 97 stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine The various energy storage cycles combined engine of the power generation method provided in 98 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine The various energy storage cycles combined engine of the power generation method provided in 99 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engine of the power generation method provided in 100 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided in the 101st class. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 102 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation of various liquid metal gravity counter-turbine three types of power generation method provided with 103 stages of energy generation method Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + vacuum direction of water to accelerate power generation to increase power generation Various energy conservation of the power generation method provided with three types of liquid metal gravity opposing turbine in 104 stages Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction acceleration rolling contact with the roll to make the amount of power generation aim to increase the amount of power generation Various energy generation method of the power generation method provided with three types of 105 Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction acceleration rolling contact with the roll to make the amount of power generation aim to increase the amount of power generation of various methods of power generation method of 106 stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power output Various energy conservation cycles of the power generation method provided with three types of liquid metal gravity opposing turbine in 107 stages Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to increase the amount of power generation in the vacuum direction Liquid metal gravity opposing turbine 3 types of Various energy conservation cycle combined engine of power generation method provided in 108 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim at increasing power generation 3 types of liquid metal gravity opposing turbines Energy storage cycle combination engine of the power generation method provided in 109 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycle united engines of the power generation method provided in 110 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy preservation cycle united engines of the power generation method provided in 111 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output 112 types of liquid metal gravity opposing turbines 112 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of the power generation method provided with 113 stages of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of the power generation method provided with 114 stages of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines with power generation method with 115 stages of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with three stages of liquid metal gravity counter-turbine aimed at in 116 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in 117 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation liquid metal gravity opposing turbine power generation equipped with three types of 118 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward accelerated + water is accelerated in vacuum direction to increase power generation power generation equipped with three types of liquid metal gravity opposing turbines in 119 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water is accelerated by vacuum direction rolling contact with liquid metal gravity opposing turbine Three types of liquid metal gravity opposing turbines are provided in 120 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction accelerated rolling contact A liquid metal gravity opposing turbine aimed at increasing the output is provided with three types in one stage Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal to increase power generation power generation method provided with 3 types of liquid metal gravity opposing turbines in 2 stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation of the liquid metal gravity opposing turbine power generation provided with three types of three types of power generation How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + vertical direction of water is accelerated by water direction to increase power output How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + water accelerating in vacuum direction rolling contact with the liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbines are provided in 5 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 6 types of 3 types of liquid metal gravity opposing turbines are provided Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) Temperature and temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward accelerated + liquid metal is accelerated to increase power generation power generation method provided with three types of liquid metal gravity opposing turbines in seven stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation of liquid metal gravity opposing power generation power generation provided with three types of eight stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically accelerated downward + water is accelerated in the vacuum direction to increase power generation power generation provided with three types of liquid metal gravity opposing turbines in 9 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction accelerating rolling contact to increase power generation with three types of liquid metal gravity opposing turbines in 10 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) Temperature control water and liquid metal are used for rising and storage + addition of gravity acceleration + downward vertical acceleration + water direction for vacuum direction accelerated rolling contact to increase power generation with 3 types of liquid metal gravity opposing turbines provided in 11 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) Temperature and temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward accelerated + liquid metal is accelerated to increase power generation power generation method provided with three types of liquid metal gravity opposing turbines in 12 stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase The various energy storage cycle combined engines of the power generation method provided with 13 types of liquid metal gravity counter-turbine 3 types aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation The various energy storage cycle combined engines of the power generation method provided with 14 stages of liquid metal gravity counter-turbine 3 types aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle combined engines of power generation method that is equipped with 15 types of liquid metal gravity counter-turbines that aim to increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method that is equipped with 16 types of liquid metal gravity opposing turbines aiming to increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method provided with 17 types of liquid metal gravity opposing turbines aimed at 17 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase The various energy storage cycle combined engines of the power generation method provided with 18 types of liquid metal gravity opposing turbines 3 types aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase The various energy storage cycle combined engines of the power generation method provided with three stages of liquid metal gravity counter-turbine aiming at 19 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase The various energy storage cycle combined engines of the power generation method provided with 20 types of liquid metal gravity counter opposed turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase The various energy storage cycle combined engines of the power generation method provided with 21 stages of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase The various energy storage cycle combined engines of the power generation method provided with 22 stages of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy conservation cycle combined engines of power generation method which is provided with 23 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation The various energy storage cycle combined engines of the power generation method provided with 24 stages of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle combined engines with power generation method that is equipped with 25 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation The various energy storage cycle combined engines of the power generation method provided with 26 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation The various energy storage cycle combined engines of the power generation method provided with 27 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle combined engines of power generation method that is equipped with 28 types of liquid metal gravity counter-turbines that aim to increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method that is equipped with 29 types of liquid metal gravity counter-turbine 3 types aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method which is provided with 30 types of liquid metal gravity counter-turbines aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 31 stages of liquid metal gravity opposing turbines aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle combined engines with power generation method that is equipped with 32 types of liquid metal gravity opposing turbines aiming to increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method which is provided with 33 types of liquid metal gravity opposing turbines aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method which is equipped with liquid metal gravity counter opposed three turbines of 34 types aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle combined engines of power generation method which is equipped with 35 types of liquid metal gravity opposing turbines aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle combined engines of power generation method that is equipped with 36 types of liquid metal gravity counter-turbines that aim to increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method which is equipped with 37 types of liquid metal gravity opposing turbines aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines with power generation method with 38 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method provided with 39 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines with power generation method with 40 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method which provided three stages of liquid metal gravity opposing turbines aimed at in 41 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method provided with 42 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engines with power generation method with 43 stages of gravity opposed turbines provided in 43 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engines with power generation method with 44 stages of gravity opposed turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engines with power generation method with 45 types of gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engines with power generation method with 46 types of gravity opposing turbines provided in 46 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類を47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engines of power generation method provided with 47 stages of gravity opposing turbines in 47 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature increase with rising ball rising device (2F) + rising ball rising device (2F) for temperature control water and liquid metal rising and saving use + adding gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation amount Various energy conservation cycle combined engines of power generation method which is provided with 48 types of liquid metal gravity opposing turbines aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rising ball rising device (2F) + rising ball rising device (2F) for rising storage and use of liquid metal and gravity + adding gravity acceleration vertically downward + acceleration of water in vacuum direction to generate power Various energy conservation cycle combined engines of the power generation method provided with 49 stages of liquid metal gravity counter-turbine 3 types aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rise and fall + increase and rise device (2F) in the increase ball lift device (2F) save and use + add gravity acceleration vertically accelerated + water power generation as vacuum direction accelerated rolling contact Various energy storage cycle coalescing engines of power generation method provided with 50 stages of liquid metal gravity opposing turbines aiming to increase volume. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rise and fall + increase and rise device (2F) in the increase ball lift device (2F) save and use + add gravity acceleration vertically accelerated + water power generation as vacuum direction accelerated rolling contact Various energy storage cycle combined engines with power generation method with 51 stages of liquid metal gravity opposing turbines aiming to increase volume. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rising ball rising device (2F) with rising ball rising device (2F) rising storage use of water and liquid metal respectively + adding gravity acceleration vertically accelerating + liquid metal acceleration to increase power output The various energy storage cycle combined engines of the power generation method provided with 52 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine The various energy conservation cycle combined engines of the power generation method provided in 53 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine The various energy conservation cycle combined engines of the power generation method provided in 54 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engine of the power generation method provided with 55 kinds of types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided in 56 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 57 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation of various types of energy storage method of the power generation method provided with three types of liquid metal gravity opposing turbine Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + vacuum direction of water acceleration to increase power generation Various energy conservation of the power generation method provided with three types of liquid metal gravity opposing turbine in 59 stages Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with liquid metal gravity counter power turbine aiming to increase the amount of generation Various energy of the power generation method provided with three types of 60 stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration vertically downward acceleration + vacuum direction acceleration rolling contact with the roll to make the amount of power generation aim to increase the amount of generation Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power output Various energy conservation cycles of power generation method provided with three types of liquid metal gravity opposing turbine in 62 stages Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to increase the amount of power generation in the vacuum direction Liquid metal gravity opposing turbine 3 types of Various energy conservation cycle combined engine of the power generation method provided in 63 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim at increasing power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of power generation method provided in 64 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy conservation cycle combined engines of the power generation method provided in 65 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycle united engines of the power generation method provided in 66 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbine 67 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of the power generation method provided with 68 types of liquid metal gravity opposing turbines in 68 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of the power generation method provided with 69 types of liquid metal gravity opposing turbines in 69 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method which is provided with 70 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method which is provided with 71 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in 72 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Three generations of liquid metal gravity opposing turbines are provided in 73 stages power generation How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward accelerated + water is accelerated in vacuum direction to increase power generation power generation provided with 74 types of liquid metal gravity opposing turbines in 74 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction accelerating rolling contact with liquid metal gravity opposing turbines 3 types of 75 types are provided in 75 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water is accelerated by vacuum direction roll contact Three liquid metal gravity opposing turbines are provided in 76 stages aiming at increasing power output Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F ) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal to increase power generation power generation method with three types of liquid metal gravity opposing turbine provided in 77 stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine The various energy storage cycle united engines of the power generation method provided in 78 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine The various energy storage cycle united engines of the power generation method provided in 79 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engine of power generation method provided in 80 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided in 81 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 82 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation of various liquid metal gravity counter-turbine three types of power generation method of 83 kinds of power generation method Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water acceleration to increase power output Various energy conservation of power generation method provided with liquid metal gravity opposing turbine 3 types in 84 stages Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction roll contact to aim at increasing the amount of power generation Various liquid metal gravity opposing turbines Various types of energy of power generation method provided with 85 stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction acceleration rolling contact with the roll to make the amount of power generation aim to increase power generation various energy generation method of 86 generations of liquid metal gravity opposing turbine Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power output Various energy conservation cycles of power generation method provided with three types of liquid metal gravity opposing turbine in 87 stages Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to increase the amount of power generation in the vacuum direction Liquid metal gravity opposing turbine 3 types of Various energy storage cycle combination engine of the power generation method provided in 88 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim at increasing power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 89 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycles combined engine of the power generation method provided in 90 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycle united engines of the power generation method provided in 91 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save + use gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines with power generation method with 93 stages of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines with power generation method with 94 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines with power generation method with 95 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines with power generation method with 96 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in 97 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation of liquid metal gravity opposing turbine power generation equipped with three types of 98 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward accelerated + water is accelerated in the vacuum direction to increase power generation Power generation provided with three types of liquid metal gravity opposing turbines in 99 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + water accelerating in vacuum direction rolling contact with liquid metal gravity opposing turbines 3 types of liquid metal gravity opposing turbines are provided in 100 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Temperature control water and liquid metal are used for rising and storage + addition of gravitational acceleration Vertical downward acceleration + water direction for vacuum direction accelerated rolling contact To increase power generation with 3 types of liquid metal gravity opposing turbines provided in 101 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F ) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal to increase power generation power generation method provided with three types of liquid metal gravity opposing turbines in 102 stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine The various energy storage cycle united engines of the power generation method provided in 103 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine The various energy storage cycle united engines of the power generation method provided in 104 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engine of the power generation method provided with the type in 105 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided in 106 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines The various energy storage cycle united engines of the power generation method provided in the 107th stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation of various types of energy saving method of power generation method provided with three types of liquid metal gravity counter turbine Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water acceleration to increase power generation Various energy conservation of the power generation method provided with three types of liquid metal gravity opposing turbine in 109 stages Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration vertically downward acceleration + vacuum direction acceleration rolling contact, aiming to increase the amount of power generation as various liquid metal gravity counter-turbine 3 types of power generation method provided with 110 stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with liquid metal Gravity opposing turbine 3 types of liquid metal gravity countering turbine provided various kinds of energy of energy generation method of 111 stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Various energy storage cycles of the power generation method provided with three types of liquid metal gravity opposing turbine in 112 stages Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to increase the amount of vacuum direction liquid metal gravity opposing turbine 3 types of aiming at increasing Various energy storage cycle united engines of the power generation method provided in 113 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim at increasing power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 114 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycle united engines of the power generation method provided in 115 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy conservation cycle combined engine of the power generation method provided in 116 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbine 117 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of the power generation method provided with three stages of liquid metal gravity opposing turbines in 118 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of the power generation method provided with three stages of liquid metal gravity opposing turbines in 119 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 120 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines aimed at are provided in one stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy storage cycle combined engines with power generation method in which 3 types of metal gravity opposing turbines are provided in 2 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation of the liquid metal gravity opposing turbine power generation provided with three types of three types of power generation How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + vertical direction of water is accelerated by water direction to increase power output How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + water accelerating in vacuum direction rolling contact with the liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbines are provided in 5 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 6 types of 3 types of liquid metal gravity opposing turbines are provided Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature and temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward accelerated + liquid metal is accelerated to increase power generation power generation method provided with three types of liquid metal gravity opposing turbines in seven stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine The various energy storage cycle united engines of the power generation method provided in 8 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine The various energy storage cycle united engines of the power generation method provided in 9 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engine of power generation method provided with 10 stages of types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engine of the power generation method provided with the type in 11 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 12 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation of various liquid metal gravity counter-turbine 3 types of power generation method provided with 13 stages of energy generation Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water acceleration to increase power generation Various energy conservation of power generation method provided with three types of liquid metal gravity opposing turbine in 14 stages Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration vertically downward acceleration + vacuum direction acceleration rolling contact with the aim of increasing the amount of power generation as liquid metal gravity counter turbine Three types of power generation method provided with 15 stages of various types of energy Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction roll contact to aim at increasing the amount of power generation Liquid metal gravity opposing turbine Various types of energy of the power generation method provided with 16 stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power output Various energy conservation cycles of the power generation method that is provided with three types of liquid metal gravity opposing turbine in 17 stages Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to increase the amount of vacuum direction liquid metal gravity opposing turbine 3 types of aiming at increasing Various energy conservation cycle combined engine of the power generation method provided in 18 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim at increasing power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 19 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy conservation cycle combined engines of the power generation method provided in 20 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycle united engines of the power generation method provided in 21 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbine 22 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of the power generation method provided with 23 types of liquid metal gravity opposing turbines in 23 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle coalescing engines with power generation method provided with 24 stages of liquid metal gravity opposing turbines in 24 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines with power generation method with 25 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 26 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy storage cycle combined engine of the power generation method provided with 27 stages of 3 types of metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation liquid metal gravity opposing power generation provided with 28 types of three types of opposing turbines How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward accelerated + water is accelerated in vacuum direction to increase power generation power generation provided with 29 types of liquid metal gravity opposing turbines in 29 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) 30 kinds of liquid metal gravity counter-turbine aiming to increase the amount of power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in vacuum direction accelerating rolling contact Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Temperature control water and liquid metal are used for rising and storage + addition of gravity acceleration + downward vertical acceleration + water direction for vacuum direction accelerated rolling contact to increase power generation by providing 3 types of liquid metal gravity opposing turbines in 31 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature and temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal to increase power generation power generation method provided with 3 types of liquid metal gravity opposing turbines in 32 stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine The various energy storage cycle united engines of the power generation method provided in 33 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine The various energy storage cycle united engines of the power generation method provided in 34 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engine of the power generation method provided in 35 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided in 36 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 37 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation of various types of energy storage method of 38 generation of liquid metal gravity opposing turbine Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + vacuum direction of water to accelerate power generation to increase power generation Various energy conservation of power generation method provided with 39 types of liquid metal gravity opposing turbine Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with liquid metal gravity counter power turbine aim to increase the amount of generation Various energy of the power generation method provided with 40 stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with the liquid metal gravity countering turbine 3 types of liquid metal gravity countering turbine provided with 41 types of various energy of energy generation method Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Various energy conservation cycles of the power generation method provided with three types of liquid metal gravity opposing turbine in 42 stages Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to increase the amount of power generation in the vacuum direction Liquid metal gravity opposing turbine 3 types of Various energy conservation cycle combined engine of the power generation method provided in 43 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim at increasing power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 44 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycle united engines of the power generation method provided in 45 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycle united engines of the power generation method provided in 46 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save + use gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines 47 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of the power generation method provided with 48 types of liquid metal gravity opposing turbines in 48 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of the power generation method provided with 49 stages of 3 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 50 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines aimed at in 51 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in 52 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation of liquid metal gravity opposing turbine power generation equipped with three types of 53 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically accelerated downward + water is accelerated in the vacuum direction to increase power generation Power generation provided with 54 types of liquid metal gravity opposing turbines in 54 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water is accelerated by vacuum direction rolling contact with liquid metal gravity opposing turbine 55 types of liquid metal gravity opposing turbines are provided for 55 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water is accelerated by vacuum direction rolling contact with liquid metal gravity opposing turbine 3 types of 56 types are provided for increasing power output Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature and temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal to increase power generation power generation method provided with 57 types of liquid metal gravity opposing turbines in 57 stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine The various energy conservation cycle combined engines of the power generation method provided in 58 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine The various energy storage cycles combined engine of the power generation method provided in 59 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engine of the power generation method provided with the type in 60 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided in 61 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of power generation method provided in 62 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation of various liquid metal gravity counter-turbine 3 types of power generation method provided with three types of power generation method Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + vacuum direction of water to accelerate power generation to increase power generation Various energy conservation of the power generation method provided with three types of liquid metal gravity opposing turbines Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction acceleration rolling contact with the roll to make the amount of power generation aims to increase the amount of power generation Various methods of energy generation method of 65 types Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with liquid metal gravity counter power turbine aiming to increase the amount of generation Various energy of the power generation method provided with three types of 66 stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power output Various energy conservation cycles of the power generation method provided with three types of liquid metal gravity opposing turbine in 67 stages Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to increase the amount of vacuum direction liquid metal gravity opposing turbine 3 types of aiming at increasing Various energy conservation cycle combined engine of the power generation method provided in 68 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim at increasing power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 69 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy conservation cycle combined engines of the power generation method provided in 70 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy preservation cycle united engines of the power generation method provided in 71 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbine 72 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of the power generation method provided with 73 types of liquid metal gravity opposing turbines in 73 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle coalescing engines with power generation method with 74 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 75 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 76 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of the power generation method which provided three types of metal gravity opposing turbines in 77 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation of liquid metal gravity opposing turbine power generation equipped with three types of 78 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward acceleration + water is accelerated in the vacuum direction to increase power generation power generation provided with three types of liquid metal gravity opposing turbines in 79 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water is accelerated by vacuum direction rolling contact with liquid metal gravity opposing turbine 3 types of 80 types of liquid metal gravity opposing turbines are provided Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water is accelerated in the vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of 81 types are provided in 81 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature and temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward accelerated + liquid metal is accelerated to increase power generation power generation method provided with 82 types of liquid metal gravity opposing turbines in 82 stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine The various energy preservation cycle united engines of the power generation method provided in 83 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine The various energy conservation cycle combined engines of the power generation method provided in 84 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engine of power generation method provided in 85 stages of kinds. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided in 86 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle united engines of the power generation method provided in 87 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation of various liquid metal gravity counter-turbine three types of power generation method of 88 kinds of power generation method Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + vacuum direction of water acceleration to increase power generation Various energy conservation of the power generation method provided with liquid metal gravity opposing turbine 3 types in 89 stages Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with liquid metal gravity counter power turbine aiming to increase the amount of generation Various energy of the power generation method provided with three types of 90 stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with the liquid metal gravity counter turbine aiming to increase the amount of generation Various energy of the power generation method provided with three types of 91 Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power output Various energy conservation cycles of the power generation method provided with three types of liquid metal gravity opposing turbine in 92 stages Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to increase the amount of power generation in the vacuum direction Liquid metal gravity opposing turbine 3 types of Various energy conservation cycle combined engine of the power generation method provided in 93 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim at increasing power generation 3 types of liquid metal gravity opposing turbines Various energy storage cycle combination engine of the power generation method provided in 94 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy conservation cycle combined engine of the power generation method provided in 95 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycles combined engine of the power generation method provided in 96 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save + use gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output 97 types of liquid metal gravity opposing turbine 97 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines with power generation method with 98 stages of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines with power generation method with 99 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines with power generation method with 100 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 101 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in 102 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation Three types of liquid metal gravity opposing turbines are provided in 103 stages power generation How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward accelerated + water is accelerated in vacuum direction to increase power generation power generation with three types of liquid metal gravity opposing turbines provided in 104 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction accelerating rolling contact with liquid metal gravity opposing turbines 3 types of 105 types are provided in 105 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + water is accelerated by vacuum direction rolling contact with liquid metal gravity opposing turbine 3 types of 106 stages are provided for increasing power output Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature and temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward + acceleration of liquid metal to increase power generation power generation method provided with three types of liquid metal gravity opposing turbines in 107 stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine The various energy storage cycles combined engine of the power generation method provided in 108 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine The various energy storage cycle united engines of the power generation method provided in 109 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle combined engine of the power generation method provided in 110 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle combined engine of the power generation method provided with the type in 111 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines Various energy storage cycle combined engine of the power generation method provided in 112 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + ratio critical materials vacuum direction accelerated power generation aiming at increasing the amount of power generation of various types of energy saving method of the power generation method provided with three types of liquid metal gravity opposing turbine Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water acceleration to increase power generation Various energy conservation of the power generation method provided with three types of liquid metal gravity opposing turbine in 114 stages Cycle coalescing agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with the liquid metal gravity countering turbine 3 types of liquid metal gravity countering turbine provided various types of various energy of energy generation method of 115 stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + water direction vacuum direction roll contact to aim at increasing the amount of power generation various liquid metal gravity opposing turbines Various kinds of energy of the power generation method provided with 116 stages Preservation cycle union agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power output Various energy conservation cycles of the power generation method provided with three types of liquid metal gravity opposing turbine in 117 stages Coalition agency. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to increase the amount of power generation in the vacuum direction Liquid metal gravity opposing turbine 3 types of Various energy conservation cycle combined engine of the power generation method provided in 118 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim at increasing power generation 3 types of liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 119 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycles combined engine of the power generation method provided in 120 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output The various energy storage cycle united engines of the power generation method provided in one stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save + use gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines 2 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of the power generation method provided with 3 types of liquid metal gravity opposing turbines in 3 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines with power generation method with 4 types of liquid metal gravity opposing turbines provided in 4 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 5 types of liquid metal gravity opposing turbines aimed at 5 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 6 types of liquid metal gravity opposing turbines aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy storage cycle combined engine of the power generation method which provided three types of metal gravity opposing turbines in 7 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類を8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming at increasing the amount of power generation of liquid metal gravity opposing power generation power generation provided with three types of eight stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類を9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically accelerated downward + water is accelerated in the vacuum direction to increase power generation power generation provided with three types of liquid metal gravity opposing turbines in 9 stages How various energy conservation cycles coalesced agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction accelerating rolling contact to increase power generation with three types of liquid metal gravity opposing turbines in 10 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類を11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Temperature control water and liquid metal are used for rising and storage + addition of gravity acceleration + downward vertical acceleration + water direction for vacuum direction accelerated rolling contact to increase power generation with 3 types of liquid metal gravity opposing turbines provided in 11 stages Energy storage cycle combination engine of power generation method. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類を12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) Temperature and temperature control water and liquid metal are raised and stored + gravity acceleration is added vertically downward accelerated + liquid metal is accelerated to increase power generation power generation method provided with three types of liquid metal gravity opposing turbines in 12 stages The various energy conservation cycle coalescing agencies. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase ball rise device (2F) for temperature control respectively Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engine of power generation method provided in 13 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase ball rise device (2F) for temperature control respectively Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engines of power generation method provided in 14 stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase ball rise device (2F) for temperature control respectively Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 15 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase ball rise device (2F) for temperature control respectively Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 16 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase ball rise device (2F) for temperature control respectively Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 17 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines of the power generation method which provided the generator in 18 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method which set the generator in 19 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 20 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 21 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy storage cycle combined engines of power generation method provided with 22 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method provided with a generator in 23 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method provided with a generator in 24 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (75a) in 25 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 26 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 27 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 28 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which liquid metal gravity opposing turbines 3 types and power generators are provided in 29 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 30 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 31 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of power generation method in which 3 types of liquid metal gravity opposing turbines and a generator are provided in 32 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 33 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 34 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 35 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 36 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 37 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 38 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 39 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 40 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 41 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 42 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 43 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 44 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of the power generation method, in which three types of liquid metal gravity opposing turbines and power generators are provided in 45 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 46 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 47 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 48 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 49 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 50 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle combined engines of power generation method in which three types of liquid metal gravity facing turbines and power generators are provided in 51 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 52 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines to aim at and a generator with thrust bearings, bearings, and a turbine outer box (77a) in 53 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 54 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines aimed at and a generator with thrust bearings, bearings, and a turbine outer box (77a) in 55 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 56 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method where three types of liquid metal gravity opposing turbines aimed at and a generator are provided in 57 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy conservation cycle combined engines of power generation method which provided three types of gravity opposing turbines and generators with thrust bearings, bearings, and a turbine outer box (77a) in 58 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy conservation cycle combined engines of the power generation method in which three types of gravity opposing turbines and a generator were provided in 59 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle coalescing engines of power generation method in which three types of gravity opposing turbines and a generator are provided in 60 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engines of power generation method in which three types of gravity opposing turbines and generators are provided in 61 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle coalescing engines of power generation method in which three types of gravity opposing turbines and a generator are provided in 62 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature increase with rising ball rising device (2F) + rising ball rising device (2F) for temperature control water and liquid metal rising and saving use + adding gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation amount Various energy conservation cycle combined engines of power generation method that three types of liquid metal gravity opposing turbines and power generators are provided in 63 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rising ball rising device (2F) + rising ball rising device (2F) for rising storage and use of liquid metal and gravity + adding gravity acceleration vertically downward + acceleration of water in vacuum direction to generate power Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 64 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rise and fall + increase and rise device (2F) in the increase ball lift device (2F) save and use + add gravity acceleration vertically accelerated + water power generation as vacuum direction accelerated rolling contact Various energy conservation cycle combined engines of power generation method that three types of liquid metal gravity opposing turbines and power generators are provided in 65 stages together with thrust bearings, bearings and turbine outer box (77a) aiming to increase quantity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rise and fall + increase and rise device (2F) in the increase ball lift device (2F) save and use + add gravity acceleration vertically accelerated + water power generation as vacuum direction accelerated rolling contact Various energy conservation cycle combined engines of power generation method that three types of liquid metal gravity opposing turbines and power generators are provided in 66 stages with thrust bearings, bearings, and turbine outer box (77a) aiming to increase quantity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rising ball rising device (2F) with rising ball rising device (2F) rising storage use of water and liquid metal respectively + adding gravity acceleration vertically accelerating + liquid metal acceleration to increase power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 67 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method in which the generator is provided in 68 stages along with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method in which the generator is provided in 69 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle coalescing engines of the power generation method in which the type and generator are provided in 70 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 71 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method provided with a generator in 72 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+出力増大球(2E)を加速する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation facility equipment method to make the turbine blade about 1/10 + power increase ball (2E) acceleration + increase Using a ball lifter (2F) to raise temperature control water and liquid metal respectively + save and use gravity + add gravity acceleration vertically downward + specific critical material in vacuum direction accelerating power generation aiming at increasing the amount of liquid metal gravity opposing turbine 3 types and power generation Various energy conservation cycle combined engines of the power generation method which installed the machine in 73 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+出力増大球(2E)を加速する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation facility equipment method to make the turbine blade about 1/10 + power increase ball (2E) acceleration + increase Using a ball lifter (2F), raise temperature control water and liquid metal respectively and use it + add gravity acceleration + vertically downward acceleration + vacuum direction of water to increase power generation by 3 types of liquid metal gravity facing turbine and power generation Various energy conservation cycle combined engines of the power generation method which installed the machine in 74 stages with thrust bearings and bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+出力増大球(2E)を加速する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation facility equipment method to make the turbine blade about 1/10 + power increase ball (2E) acceleration + increase Using a ball lifter (2F), temperature control water and liquid metal are elevated and stored + gravity acceleration is added vertically downward + water is accelerated by vacuum direction rolling contact, and 3 types of liquid metal gravity opposing turbines aiming to increase power output Various energy conservation cycle combined engines of the power generation method which provided the generator in 75 stages with thrust bearings, bearings and a turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+出力増大球(2E)を加速する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation facility equipment method to make the turbine blade about 1/10 + power increase ball (2E) acceleration + increase Using a ball lifter (2F), temperature control water and liquid metal are elevated and stored + gravity acceleration is added vertically downward + water is accelerated by vacuum direction rolling contact, and 3 types of liquid metal gravity opposing turbines aiming to increase power output Various energy storage cycle combined engines of the power generation method provided with a generator in 76 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+出力増大球(2E)を加速する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types of driving + liquid metal gravity power generation output generation facility equipment method to make the turbine blade about 1/10 + power increase ball (2E) acceleration + increase Using a ball lifter (2F), raise temperature control water and liquid metal respectively and use it + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity facing turbine and generator The various energy storage cycle combined engines of the power generation method provided in 77 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を加速タービン駆動する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Drive the power increase ball (2E) by accelerating the turbine + increase the ball lifter (2F) to raise the temperature control water and liquid metal respectively + save the gravity + add the vertical acceleration vertically downward + ratio critical material vacuum direction accelerated power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 78 stages together with thrust bearings, bearings, and a turbine outer box (77a) aiming to increase the amount. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を加速タービン駆動する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Drive the power increasing ball (2E) by acceleration turbine driving + raise the temperature rising device (2F) to raise temperature control water and liquid metal respectively and save + add gravity acceleration vertically downward to accelerate + generate electricity by vacuum direction of water Various energy conservation cycle combined engines of power generation method that three types of liquid metal gravity opposing turbines aiming at increase in quantity and generators are provided in 79 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を加速タービン駆動する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Drive the power increasing ball (2E) by acceleration turbine driving + raise the temperature rising device (2F) to raise temperature control water and liquid metal respectively + save gravity + add gravity acceleration vertically downward + water as vacuum direction accelerated rolling contact Various energy conservation cycle combined engines of power generation method that three types of liquid metal gravity opposing turbines and power generators are provided in 80 stages together with thrust bearings, bearings and a turbine outer box (77a) to increase the amount of power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を加速タービン駆動する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Drive the power increasing ball (2E) by acceleration turbine driving + raise the temperature rising device (2F) to raise temperature control water and liquid metal respectively + save gravity + add gravity acceleration vertically downward + water as vacuum direction accelerated rolling contact Various energy conservation cycle combined engines of power generation method which is provided with 81 types of liquid metal gravity opposing turbines and power generator with thrust bearings, bearings and turbine outer box (77a) aiming to increase the amount of power generation. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+出力増大球(2E)を加速タービン駆動する+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Drive the power increasing ball (2E) by acceleration turbine driving + raise the temperature rising device (2F) to raise temperature control water and liquid metal respectively + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to generate electricity Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 82 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy conservation cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines and a generator with thrust bearings, bearings, and a turbine outer box (77a) in 83 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combined engines of the power generation method which is provided with 84 types of liquid metal gravity opposing turbines and a generator with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method where three types of liquid metal gravity opposing turbines and a generator are provided in 85 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which is provided with 86 types of liquid metal gravity opposing turbines and power generators aimed at in 86 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various types of energy conservation cycle combined engines with power generation methods in which three types of metal gravity opposing turbines and a generator are provided in 87 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 88 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 89 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And various energy storage cycle combined engines of power generation method provided in 90 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engines of the power generation method provided in 91 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 92 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of power generation method in which a generator is provided in 93 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine case (77a) in 94 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 95 stages along with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle combined engines of the power generation method provided type and generator in 96 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method which provided the generator in 97 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engine of power generation method provided in 98 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of power generation method provided in 99 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 100 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of the power generation method provided in 101 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 102 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines of the power generation method provided with generator in 103 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines of the power generation method which provided the generator in 104 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combination engines of the power generation method which provided the generator with the thrust bearing, the bearing, and the turbine outer box (105a) in 105 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of power generation method in which the generator is provided in 106 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 107 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of the power generation method which is provided with 108 types of liquid metal gravity opposing turbines and a generator together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of the power generation method which is provided with 109 types of liquid metal gravity opposing turbines and a generator together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 110 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 111 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator were provided in 112 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of the power generation method provided in 113 stages with bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 114 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 115 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engine of power generation method provided in 116 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 117 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method in which the generator is provided in 118 stages along with thrust bearings, bearings, and a turbine casing (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy storage cycle combined engines of the power generation method in which the generator is provided in 119 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 120 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of power generation method in which the type and generator are provided in one stage together with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy storage cycle combined engines with power generation method in which a generator is provided in two stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engine of the power generation method provided in three stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of power generation method provided in four stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 5 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in six stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of power generation method provided in 7 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method provided with a generator in 8 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method provided with a generator in 9 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy preservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings, and a turbine outer case (77a) in 10 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 11 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method provided with 12 stages of thrust bearings, bearings and turbine outer box (77a) together with the bearings. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 13 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 14 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines aimed at and a generator with thrust bearings, bearings, and a turbine outer box (77a) in 15 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines to aim at and a generator with thrust bearings, bearings and a turbine outer box (77a) in 16 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 17 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of power generation method provided in 18 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 19 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 20 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engine of power generation method provided in 21 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 22 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator in 23 stages with thrust bearings, bearings, and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine case (77a) in 24 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 25 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 26 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method which provided the generator in 27 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box Various energy conservation cycle combined engines of the power generation method provided in 28 stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engines of the power generation method provided in 29 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 30 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 31 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of power generation method provided in 32 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines of the power generation method provided with a generator in 33 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines of the power generation method provided with a generator in 34 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 35 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 36 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 37 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 38 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator were provided in 39 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method where three types of liquid metal gravity opposing turbines aimed at and power generators are provided in 40 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of power generation method in which 3 types of liquid metal gravity opposing turbines aimed at and power generators are provided in 41 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 42 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 43 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 44 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 45 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engine of power generation method provided in 46 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 47 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with 48 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with 49 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 50 stages along with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 51 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy storage cycle combined engines of the power generation method provided with a generator in 52 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) and various energy conservation cycle united engines of the power generation method provided in 53 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engines of the power generation method provided in 54 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Energy storage cycle combined engine of the power generation method provided in 55 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 56 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 57 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method provided with a generator in 58 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method which set the generator in 59 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy preservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine case (77a) in 60 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combination engines of the power generation method which provided the generator with 61 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy storage cycle combined engines of power generation method provided with 62 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and generators are provided in 63 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 64 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 65 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 66 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various types of energy storage cycle combined engines with power generation method in which three types of metal gravity opposing turbines and a generator are provided in 67 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 68 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 69 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engine of power generation method provided in 70 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of the power generation method provided in 71 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 72 stages with the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combination engines of the power generation method which provided the generator with the thrust bearing, the bearing, and the turbine outer box (77a) in 73 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy preservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 74 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 75 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 76 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy storage cycle combined engines with power generation method in which the generator is provided in 77 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engine of power generation method provided in 78 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of power generation method provided in 79 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 80 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of the power generation method provided in 81 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 82 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method provided with generator in 83 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method provided with generator in 84 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 85 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 86 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 87 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 88 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combined engines of the power generation method which provided the liquid metal gravity countering three types and the generator with the thrust bearing, the bearing and the turbine case (77a) in 89 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 90 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 91 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various types of energy storage cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 92 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 93 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 94 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 95 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And various energy storage cycle combined engines of power generation method provided in 96 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 97 stages with the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 98 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combination engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine case (77a) in 99 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle coalescing engines of the power generation method in which the type and generator are provided in 100 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 101 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy storage cycle combined engines of the power generation method provided with a generator in 102 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) and various energy conservation cycle united engines of the power generation method provided in 103 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of the power generation method provided in 104 stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engines of the power generation method provided in 105 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of the power generation method provided in 106 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) and various energy conservation cycle combined engines of the power generation method provided in the 107th stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines of the power generation method provided with generator in 108 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines of the power generation method which has a generator in 109 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings and the turbine outer box (77a) in 110 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 111 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy storage cycle combined engines of the power generation method provided with 112 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 113 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combined engines of the power generation method which provided liquid metal gravity countering three kinds and a generator with thrust bearings, bearings and a turbine outer case (77a) in 114 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method that three types of liquid metal gravity opposing turbines aimed at and a generator are provided in 115 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method that three types of liquid metal gravity opposing turbines aimed at and power generators are provided in 116 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 117 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 118 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 119 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of the power generation method provided in 120 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And various energy storage cycle combined engines of the power generation method provided in one stage with the bearings and the turbine casing (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in two stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings, and the turbine outer box (77a) in three stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combination engines of the power generation method which provided the generator with thrust bearings, bearings and turbine outer box (77a) in four stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 5 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 6 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method provided with a generator in 7 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engine of power generation method provided in 8 stages together with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of the power generation method provided in 9 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 10 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 11 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of power generation method provided in 12 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method which provided the generator in 13 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines of the power generation method which provided the generator in 14 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings and turbine outer box (77a) in 15 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings and turbine outer box (77a) in 16 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 17 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and generators are provided in 18 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 19 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 20 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines aimed at and a generator with a thrust bearing, a bearing, and a turbine outer box (77a) in 21 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 22 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of power generation method provided in 23 stages with bearings and turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 24 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 25 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 26 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 27 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction liquid metal gravity countering turbine 3 aiming at increasing power generation amount Various energy conservation cycle combined engines of the power generation method provided type and generator in 28 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification Increase temperature control water and liquid metal respectively with rising and rising ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power output Liquid metal gravity opposing turbine 3 Various energy conservation cycle combined engines of the power generation method provided type and generator in 29 stages along with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification + Increase the temperature control water and liquid metal respectively by using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction roll contact liquid metal gravity opposing turbine aiming to increase power output Various energy conservation cycle combined engines of power generation method in which three types and generators are provided in 30 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification + Increase the temperature control water and liquid metal respectively by using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction roll contact liquid metal gravity opposing turbine aiming to increase power output Various energy conservation cycle combined engines of power generation method provided with 31 types in 3 stages and a generator with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification Increase temperature control water and liquid metal respectively by using + increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines And various energy conservation cycle combined engines of the power generation method which provided the generator in 32 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction liquid metal gravity countering turbine 3 aiming at increasing power generation amount Various energy conservation cycle combined engines of the power generation method provided type and generator in 33 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification Increase temperature control water and liquid metal respectively with rising and rising ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power output Liquid metal gravity opposing turbine 3 Various energy conservation cycle combined engines of the power generation method provided type and generator in 34 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification + Increase the temperature control water and liquid metal respectively by using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction roll contact liquid metal gravity opposing turbine aiming to increase power output Various energy conservation cycle combined engines of power generation method in which 3 types and generators are provided in 35 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification + Increase the temperature control water and liquid metal respectively by using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction roll contact liquid metal gravity opposing turbine aiming to increase power output Various energy conservation cycle combined engines of power generation method in which 3 types and generators are provided in 36 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification Increase temperature control water and liquid metal respectively by using + increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposing turbines And various energy conservation cycle combination engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 37 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 38 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 39 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method where three types of liquid metal gravity opposing turbines and power generators are provided in 40 stages with thrust bearings, bearings, and a turbine outer box (77a) aiming to increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of the power generation method, in which three types of liquid metal gravity opposing turbines and power generators are provided in 41 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 42 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 43 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of the power generation method, in which three types of liquid metal gravity opposing turbines and power generators are provided in 44 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 45 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 46 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 47 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of the power generation method in which three types of liquid metal gravity facing turbines and power generators are provided in 48 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 49 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 50 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 51 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 52 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 53 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 54 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 55 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 56 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method which is provided with 57 types of liquid metal gravity opposing turbines and power generator aiming at increase with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 58 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 59 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 60 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 61 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 62 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 63 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 64 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 65 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 66 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method that three types of liquid metal gravity opposing turbines and a generator are provided in 67 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engines of power generation method in which three types of gravity opposing turbines and generators are provided in 68 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy conservation cycle combined engines of the power generation method in which three types of gravity opposing turbines and a generator were provided in 69 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle coalescing engines of power generation method in which three types of gravity opposing turbines and a generator are provided in 70 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle coalescing engines of power generation method in which three types of gravity opposing turbines and a generator are provided in 71 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle coalescing engines of power generation method in which three types of gravity opposing turbines and a generator are provided in 72 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the drop as much as possible with the increase ball lifter (2F) + raise the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration vertically accelerate downward + ratio critical substance vacuum Three types of liquid metal gravity-facing turbines aimed at increasing the amount of directionally accelerated power generation and various energy storage cycle combined engines of power generation methods provided with a generator in 73 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the drop as much as possible with the increase ball lifter (2F) + raise the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add vertical acceleration vertically accelerate + accelerate water in the vacuum direction The three types of liquid metal gravity-facing turbines aimed at increasing the amount of power generation and various energy storage cycle combined engines of power generation methods provided with a generator in 74 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the drop as much as possible with the increase ball lifter (2F) + raise the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add vertical acceleration vertically accelerate + accelerate water in the vacuum direction Various energy conservation cycle combined engines of power generation method that three types of liquid metal gravity opposing turbines aiming at increasing the amount of power generation as rolling contact and a generator with thrust bearings, bearings and a turbine outer box (77a) are provided in 75 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the drop as much as possible with the increase ball lifter (2F) + raise the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add vertical acceleration vertically accelerate + accelerate water in the vacuum direction Various energy conservation cycle combined engines of power generation method with three types of liquid metal gravity opposing turbines aiming at increasing the amount of power generation as rolling contact and a generator with thrust bearings, bearings and a turbine outer box (77a) in 76 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the drop as much as possible with the increase ball lifter (2F) + raise the temperature control water and liquid metal respectively with the increase ball lifter (2F) save + add gravity acceleration accelerate vertically downward + accelerate the liquid metal Three types of liquid metal gravity opposing turbines aiming to increase power generation capacity and various energy conservation cycle combined engines of power generation method in which a generator is provided in 77 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator in 78 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with 79 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 80 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 81 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method provided with generator in 82 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) The various energy conservation cycle united engines of the power generation method provided in 83 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of power generation method provided in 84 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engines of the power generation method provided in 85 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Energy storage cycle combination engine of the power generation method provided in 86 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of power generation method provided in 87 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines with power generation method in which the generator is provided in 88 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method which set the generator in 89 stages together with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings and turbine outer box (77a) in 90 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 91 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy storage cycle combined engines of the power generation method provided with 92 stages of thrust bearings, bearings, and a turbine outer box (77a) with bearings. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy conservation cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator were provided in 93 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 94 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines and power generators with thrust bearings, bearings, and a turbine outer box (77a) in 95 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which is provided with 96 types of liquid metal gravity opposing turbines and power generators with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various types of energy storage cycle combined engines with power generation methods in which three types of metal gravity opposing turbines and a generator are provided in 97 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engine of power generation method provided in 98 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of power generation method provided in 99 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 100 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of the power generation method provided in 101 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 102 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines of the power generation method provided with generator in 103 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines of the power generation method which provided the generator in 104 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combination engines of the power generation method which provided the generator with the thrust bearing, the bearing, and the turbine outer box (105a) in 105 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of power generation method in which the generator is provided in 106 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 107 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of the power generation method which is provided with 108 types of liquid metal gravity opposing turbines and a generator together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of the power generation method which is provided with 109 types of liquid metal gravity opposing turbines and a generator together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 110 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 111 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator were provided in 112 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of the power generation method provided in 113 stages with bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 114 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 115 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engine of power generation method provided in 116 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 117 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method in which the generator is provided in 118 stages along with thrust bearings, bearings, and a turbine casing (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy storage cycle combined engines of the power generation method in which the generator is provided in 119 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 120 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of power generation method in which the type and generator are provided in one stage together with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy storage cycle combined engines with power generation method in which a generator is provided in two stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engine of the power generation method provided in three stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of power generation method provided in four stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 5 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in six stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of power generation method provided in 7 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method provided with a generator in 8 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method provided with a generator in 9 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy preservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings, and a turbine outer case (77a) in 10 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 11 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method provided with 12 stages of thrust bearings, bearings and turbine outer box (77a) together with the bearings. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 13 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 14 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines aimed at and a generator with thrust bearings, bearings, and a turbine outer box (77a) in 15 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines to aim at and a generator with thrust bearings, bearings and a turbine outer box (77a) in 16 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 17 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of power generation method provided in 18 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 19 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 20 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engine of power generation method provided in 21 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 22 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator in 23 stages with thrust bearings, bearings, and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine case (77a) in 24 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 25 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 26 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method which provided the generator in 27 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box Various energy conservation cycle combined engines of the power generation method provided in 28 stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engines of the power generation method provided in 29 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 30 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 31 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of power generation method provided in 32 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines of the power generation method provided with a generator in 33 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines of the power generation method provided with a generator in 34 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 35 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 36 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 37 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 38 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator were provided in 39 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method where three types of liquid metal gravity opposing turbines aimed at and power generators are provided in 40 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of power generation method in which 3 types of liquid metal gravity opposing turbines aimed at and power generators are provided in 41 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 42 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 43 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 44 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 45 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engine of power generation method provided in 46 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 47 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with 48 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with 49 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 50 stages along with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 51 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy storage cycle combined engines of the power generation method provided with a generator in 52 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) and various energy conservation cycle united engines of the power generation method provided in 53 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engines of the power generation method provided in 54 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Energy storage cycle combined engine of the power generation method provided in 55 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 56 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 57 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method provided with a generator in 58 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method which set the generator in 59 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy preservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine case (77a) in 60 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combination engines of the power generation method which provided the generator with 61 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy storage cycle combined engines of power generation method provided with 62 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and generators are provided in 63 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 64 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 65 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 66 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various types of energy storage cycle combined engines with power generation method in which three types of metal gravity opposing turbines and a generator are provided in 67 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 68 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 69 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engine of power generation method provided in 70 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of the power generation method provided in 71 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 72 stages with the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combination engines of the power generation method which provided the generator with the thrust bearing, the bearing, and the turbine outer box (77a) in 73 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy preservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 74 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 75 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 76 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy storage cycle combined engines with power generation method in which the generator is provided in 77 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engine of power generation method provided in 78 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of power generation method provided in 79 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 80 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of the power generation method provided in 81 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 82 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method provided with generator in 83 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method provided with generator in 84 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 85 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 86 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 87 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 88 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combined engines of the power generation method which provided the liquid metal gravity countering three types and the generator with the thrust bearing, the bearing and the turbine case (77a) in 89 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 90 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 91 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various types of energy storage cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 92 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 93 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 94 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 95 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And various energy storage cycle combined engines of power generation method provided in 96 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 97 stages with the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 98 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combination engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine case (77a) in 99 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle coalescing engines of the power generation method in which the type and generator are provided in 100 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 101 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy storage cycle combined engines of the power generation method provided with a generator in 102 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) and various energy conservation cycle united engines of the power generation method provided in 103 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of the power generation method provided in 104 stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engines of the power generation method provided in 105 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of the power generation method provided in 106 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) and various energy conservation cycle combined engines of the power generation method provided in the 107th stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines of the power generation method provided with generator in 108 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines of the power generation method which has a generator in 109 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings and the turbine outer box (77a) in 110 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 111 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy storage cycle combined engines of the power generation method provided with 112 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 113 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combined engines of the power generation method which provided liquid metal gravity countering three kinds and a generator with thrust bearings, bearings and a turbine outer case (77a) in 114 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method that three types of liquid metal gravity opposing turbines aimed at and a generator are provided in 115 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method that three types of liquid metal gravity opposing turbines aimed at and power generators are provided in 116 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 117 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 118 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 119 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of the power generation method provided in 120 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And various energy storage cycle combined engines of the power generation method provided in one stage with the bearings and the turbine casing (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in two stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings, and the turbine outer box (77a) in three stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combination engines of the power generation method which provided the generator with thrust bearings, bearings and turbine outer box (77a) in four stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 5 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 6 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method provided with a generator in 7 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engine of power generation method provided in 8 stages together with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of the power generation method provided in 9 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 10 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 11 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of power generation method provided in 12 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method which provided the generator in 13 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines of the power generation method which provided the generator in 14 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings and turbine outer box (77a) in 15 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings and turbine outer box (77a) in 16 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 17 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and generators are provided in 18 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 19 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 20 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines aimed at and a generator with a thrust bearing, a bearing, and a turbine outer box (77a) in 21 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 22 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of power generation method provided in 23 stages with bearings and turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 24 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 25 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 26 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 27 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 28 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines of power generation method provided in 29 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 30 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 31 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 32 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of the power generation method provided in 33 stages with bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines of power generation method provided in 34 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 35 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 36 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And energy storage cycle combined engine of the power generation method provided in 37 stages with the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 38 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 39 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method where three types of liquid metal gravity opposing turbines and power generators are provided in 40 stages with thrust bearings, bearings, and a turbine outer box (77a) aiming to increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of the power generation method, in which three types of liquid metal gravity opposing turbines and power generators are provided in 41 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 42 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 43 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of the power generation method, in which three types of liquid metal gravity opposing turbines and power generators are provided in 44 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 45 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 46 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 47 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of the power generation method in which three types of liquid metal gravity facing turbines and power generators are provided in 48 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 49 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 50 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 51 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 52 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 53 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 54 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 55 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 56 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method which is provided with 57 types of liquid metal gravity opposing turbines and power generator aiming at increase with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 58 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 59 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 60 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 61 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 62 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 63 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 64 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 65 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 66 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method that three types of liquid metal gravity opposing turbines and a generator are provided in 67 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engines of power generation method in which three types of gravity opposing turbines and generators are provided in 68 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy conservation cycle combined engines of the power generation method in which three types of gravity opposing turbines and a generator were provided in 69 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle coalescing engines of power generation method in which three types of gravity opposing turbines and a generator are provided in 70 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle coalescing engines of power generation method in which three types of gravity opposing turbines and a generator are provided in 71 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle coalescing engines of power generation method in which three types of gravity opposing turbines and a generator are provided in 72 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature increase with rising ball rising device (2F) + rising ball rising device (2F) for temperature control water and liquid metal rising and saving use + adding gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation amount Various types of energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 73 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rising ball rising device (2F) + rising ball rising device (2F) for rising storage and use of liquid metal and gravity + adding gravity acceleration vertically downward + acceleration of water in vacuum direction to generate power Various energy conservation cycle combined engines of power generation method that three types of liquid metal gravity opposing turbines and power generators are provided in 74 stages together with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rise and fall + increase and rise device (2F) in the increase ball lift device (2F) save and use + add gravity acceleration vertically accelerated + water power generation as vacuum direction accelerated rolling contact Various energy conservation cycle combined engines of power generation method that three types of liquid metal gravity opposing turbines and power generators are provided in 75 stages together with thrust bearings, bearings, and a turbine outer box (77a) to increase the amount. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rise and fall + increase and rise device (2F) in the increase ball lift device (2F) save and use + add gravity acceleration vertically accelerated + water power generation as vacuum direction accelerated rolling contact Various energy conservation cycle combined engines of power generation method that three types of liquid metal gravity opposing turbines and power generators are provided in 76 stages together with thrust bearings, bearings and turbine outer box (77a) aiming to increase quantity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rising ball rising device (2F) with rising ball rising device (2F) rising storage use of water and liquid metal respectively + adding gravity acceleration vertically accelerating + liquid metal acceleration to increase power output Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 77 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator in 78 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with 79 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 80 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 81 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method provided with generator in 82 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) The various energy conservation cycle united engines of the power generation method provided in 83 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of power generation method provided in 84 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engines of the power generation method provided in 85 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Energy storage cycle combination engine of the power generation method provided in 86 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of power generation method provided in 87 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines with power generation method in which the generator is provided in 88 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method which set the generator in 89 stages together with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings and turbine outer box (77a) in 90 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 91 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy storage cycle combined engines of the power generation method provided with 92 stages of thrust bearings, bearings, and a turbine outer box (77a) with bearings. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy conservation cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator were provided in 93 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 94 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines and power generators with thrust bearings, bearings, and a turbine outer box (77a) in 95 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which is provided with 96 types of liquid metal gravity opposing turbines and power generators with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various types of energy storage cycle combined engines with power generation methods in which three types of metal gravity opposing turbines and a generator are provided in 97 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 98 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 99 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And various energy storage cycle combined engines of power generation method provided in 100 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of the power generation method provided in the 101st stage with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 102 stages with the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 103 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 104 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 105 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle coalescing engines of the power generation method in which the type and generator are provided in 106 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method which provided the generator in 107 stages with thrust bearings, bearings, and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle united engines of the power generation method provided in 108 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) and various energy conservation cycle united engines of the power generation method provided in 109 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engines of the power generation method provided in 110 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engines of the power generation method provided in 111 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 112 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines of the power generation method provided with a generator in 113 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method which provided the generator in 114 stages with thrust bearings, bearings and a turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings and turbine outer box (77a) in 115 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method in which the generator is provided in 116 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 117 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy conservation cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines and a generator with thrust bearings, bearings, and a turbine outer box (77a) in 118 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator were provided in 119 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 120 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in one stage together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various types of energy storage cycle combined engines with power generation methods in which three types of metal gravity opposing turbines and a generator are provided in two stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of power generation method provided in 3 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in four stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 5 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 6 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And energy storage cycle combined engine of power generation method provided in 7 stages with turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy preservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings, and the turbine outer box (77a) in eight stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings, and a turbine outer case (77a) in nine stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 10 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 11 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy storage cycle combined engines of the power generation method provided with a generator in 12 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engine of power generation method provided in 13 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engines of power generation method provided in 14 stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 15 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 16 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 17 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines of the power generation method which provided the generator in 18 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method which set the generator in 19 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 20 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 21 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy storage cycle combined engines of power generation method provided with 22 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 23 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 24 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines to aim at and a generator with a thrust bearing, a bearing, and a turbine outer case (77a) in 25 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 26 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 27 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 28 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines of power generation method provided in 29 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 30 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 31 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 32 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 33 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy preservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 34 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle combined engines of the power generation method provided type and generator in 35 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 36 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method which provided the generator in 37 stages with thrust bearings, bearings and a turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engines of the power generation method provided in 38 stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of the power generation method provided in 39 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 40 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Energy storage cycle combined engine of the power generation method provided in 41 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 42 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method provided with a generator in 43 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines with power generation method in which the generator is provided in 44 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 45 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 46 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 47 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and generators are provided in 48 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and generators are provided in 49 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines and a generator with thrust bearings, bearings, and a turbine outer box (77a) to aim at 50 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which is provided with 51 types of liquid metal gravity opposing turbines and a generator with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator were provided in 52 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of power generation method provided in 53 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 54 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engine of power generation method provided in 55 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 56 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And energy storage cycle combined engine of the power generation method provided in 57 stages with the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy preservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 58 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing, and the turbine outer box (77a) in 59 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 60 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 61 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method provided with a generator in 62 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engines of power generation method provided in 63 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of power generation method provided in 64 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 65 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engines of the power generation method provided in 66 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 67 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method provided with a generator in 68 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines with power generation method in which the generator is provided in 69 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 70 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 71 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 72 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy conservation cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines and a generator with thrust bearings, bearings, and a turbine outer box (77a) in 73 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 74 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 75 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of the power generation method, in which three types of liquid metal gravity opposing turbines and a generator are provided in 76 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various types of energy storage cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 77 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 78 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 79 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engine of power generation method provided in 80 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engines of the power generation method provided in 81 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 82 stages with the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 83 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combination engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 84 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 85 stages along with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 86 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method which provided the generator in 87 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engines of the power generation method provided in 88 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engines of the power generation method provided in 89 stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engines of the power generation method provided in 90 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Energy storage cycle combined engine of the power generation method provided in 91 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 92 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method provided with generator in 93 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method which provided the generator in 94 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings and turbine outer box (77a) in 95 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine case (77a) in 96 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy storage cycle combined engines of the power generation method which installed the machine in 97 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and generators are provided in 98 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 99 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 100 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 101 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 102 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 103 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 104 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engines of power generation method provided in 105 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engines of the power generation method provided in 106 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And energy storage cycle combined engine of the power generation method provided in the 107th stage with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of power generation method in which the generator is provided in 108 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy storage cycle combined engines of the power generation method in which the generator is provided in 109 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle combined engines of the power generation method provided type and generator in 110 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 111 stages together with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method provided with a generator in 112 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) and various energy conservation cycle united engines of the power generation method provided in 113 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engines of the power generation method provided in 114 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of the power generation method provided in 115 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Energy storage cycle combination engine of the power generation method provided in 116 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 117 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method provided with a generator in 118 stages with thrust bearings, bearings and a turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines of the power generation method provided with a generator in 119 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine case (77a) in 120 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings and bearings and the turbine outer box (77a) in one stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method provided with the thrust bearing and bearings and the turbine outer box (77a) in two stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and generators are provided in three stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and generators are provided in four stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in five stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines aimed at and power generators are provided in six stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various types of energy conservation cycle combined engines with power generation methods in which three types of metal gravity opposing turbines and a generator are provided in seven stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of power generation method provided in 8 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 9 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 10 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 11 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 12 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine case (77a) in 13 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combination engines of the power generation method which provided the generator with thrust bearings and bearings and the turbine outer box (77a) in 14 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 15 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle coalescing engines of the power generation method in which the type and generator are provided in 16 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy storage cycle combined engines of the power generation method which provided the generator in 17 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engine of power generation method provided in 18 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of the power generation method provided in 19 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 20 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 21 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of power generation method provided in 22 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method provided with a generator in 23 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method provided with a generator in 24 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (75a) in 25 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 26 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 27 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy conservation cycle combined engines of the power generation method which provided the liquid metal gravity countering three kinds and the generator with the thrust bearing, the bearing and the turbine outer case (77a) in 28 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 29 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 30 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method where three types of liquid metal gravity opposing turbines and a generator are provided in 31 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 32 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of the power generation method provided in 33 stages with bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines of power generation method provided in 34 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 35 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 36 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And energy storage cycle combined engine of the power generation method provided in 37 stages with the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 38 stages with bearings and turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 39 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 40 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 41 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 42 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 43 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 44 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 45 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engine of power generation method provided in 46 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 47 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of the power generation method in which three types of liquid metal gravity facing turbines and power generators are provided in 48 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 49 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 50 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle combined engines of power generation method in which three types of liquid metal gravity facing turbines and power generators are provided in 51 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method which is provided with 52 types of liquid metal gravity opposing turbines and a generator with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 53 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity facing turbines and power generators are provided in 54 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 55 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 56 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle combining engines with three types of liquid metal gravity-facing turbines and power generators with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 58 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 59 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity facing turbines and power generators are provided in 60 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 61 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 62 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method that three types of liquid metal gravity opposing turbines and power generators are provided in 63 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 64 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 65 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle combined engines of power generation method in which three types of liquid metal gravity facing turbines and power generators are provided in 66 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 67 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 68 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 69 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 70 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 71 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 72 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 73 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 74 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 75 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle coalescing engines of the power generation method, in which three types of liquid metal gravity opposing turbines and a generator are provided in 76 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 77 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy conservation cycle combined engines of the power generation method in which three types of gravity opposing turbines and a generator were provided in 78 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy conservation cycle combined engines of the power generation method in which three types of gravity opposing turbines and a generator were provided in 79 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy conservation cycle combined engines of the power generation method in which three types of gravity opposing turbines and a generator were provided in 80 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engines of power generation method in which three types of gravity opposing turbines and a generator are provided in 81 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engines of power generation method in which three types of gravity opposing turbines and generators are provided in 82 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature increase with rising ball rising device (2F) + rising ball rising device (2F) for temperature control water and liquid metal rising and saving use + adding gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation amount Various energy conservation cycle combined engines of power generation method which is provided with 83 types of liquid metal gravity opposing turbines and power generators aimed at increase with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rising ball rising device (2F) + rising ball rising device (2F) for rising storage and use of liquid metal and gravity + adding gravity acceleration vertically downward + acceleration of water in vacuum direction to generate power Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 84 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rise and fall + increase and rise device (2F) in the increase ball lift device (2F) save and use + add gravity acceleration vertically accelerated + water power generation as vacuum direction accelerated rolling contact Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 85 stages together with thrust bearings, bearings, and a turbine outer box (77a) aiming to increase the amount. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rise and fall + increase and rise device (2F) in the increase ball lift device (2F) save and use + add gravity acceleration vertically accelerated + water power generation as vacuum direction accelerated rolling contact Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 86 stages together with thrust bearings, bearings, and a turbine outer box (77a) aiming to increase the amount. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rising ball rising device (2F) with rising ball rising device (2F) rising storage use of water and liquid metal respectively + adding gravity acceleration vertically accelerating + liquid metal acceleration to increase power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 87 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with 88 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with 89 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 90 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 91 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy storage cycle combined engines of the power generation method provided with generator in 92 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle united engines of the power generation method provided in 93 stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of power generation method provided in 94 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Energy storage cycle combination engine of the power generation method provided in 95 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Energy storage cycle combination engine of the power generation method provided in 96 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 97 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method which provided the generator in 98 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method which set the generator in 99 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings and turbine outer box (77a) in 100 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy storage cycle combined engines of the power generation method in which the generator is provided in 101 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy storage cycle combined engines of power generation method provided with 102 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of the power generation method which is provided with three types of liquid metal gravity opposing turbines and a generator together with thrust bearings, bearings, and a turbine outer box (77a) in 103 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines and a generator with thrust bearings, bearings, and a turbine outer box (77a) in 104 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method where three types of liquid metal gravity opposing turbines aimed at and a generator were provided in 105 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 106 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various types of energy storage cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 107 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 108 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 109 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 110 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of the power generation method provided in 111 stages with bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 112 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 113 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combination engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 114 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 115 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 116 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy storage cycle combined engines of the power generation method which provided the generator in 117 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engines of the power generation method provided in 118 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of the power generation method provided in 119 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of the power generation method provided in 120 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Energy storage cycle combined engine of the power generation method provided in one stage with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of power generation method provided in two stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines with power generation method in which the generator is provided in 3 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines with power generation method in which the generator is provided in 4 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings and turbine outer box (77a) in 5 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings, and a turbine outer box (77a) in six stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy storage cycle combined engines of the power generation method which installed the machine in 7 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and generators are provided in eight stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and generators are provided in 9 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of power generation method that three types of liquid metal gravity opposing turbines aimed at and power generators provided with thrust bearings, bearings and turbine outer box (77a) in 10 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines and a generator with thrust bearings, bearings, and a turbine outer box (77a) aimed at 11 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 12 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of power generation method provided in 13 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 14 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 15 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 16 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And energy storage cycle combined engine of the power generation method provided in 17 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of power generation method in which the generator is provided in 18 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of power generation method in which the generator is provided in 19 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 20 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 21 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy storage cycle combined engines of the power generation method provided with a generator in 22 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) and various energy conservation cycle united engines of the power generation method provided in 23 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of power generation method provided in 24 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 25 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 26 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 27 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method which provided the generator in 28 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines of the power generation method which set the generator in 29 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy preservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 30 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combination engines of the power generation method which provided the generator with 31 stages of thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 32 stages with thrust bearings and bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 33 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 34 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 35 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 36 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 37 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 38 stages with bearings and turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 39 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 40 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 41 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 42 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combination engines of the power generation method which provided the generator with 43 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with 44 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 45 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle coalescing engines of the power generation method in which the type and generator are provided in 46 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy storage cycle combined engines of the power generation method provided with a generator in 47 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engine of power generation method provided in 48 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of the power generation method provided in 49 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 50 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engines of the power generation method provided in 51 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 52 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines of the power generation method provided with a generator in 53 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method provided with a generator in 54 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 55 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 56 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 57 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and generators are provided in 58 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and generators are provided in 59 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 60 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which is provided with 61 types of liquid metal gravity opposing turbines and power generators with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and generators are provided in 62 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 63 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 64 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 65 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 66 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 67 stages with the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method in which the generator is provided in 68 stages along with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method in which the generator is provided in 69 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle coalescing engines of the power generation method in which the type and generator are provided in 70 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 71 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method provided with a generator in 72 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle united engines of the power generation method provided in the 73rd stage together with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of power generation method provided in 74 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engines of the power generation method provided in 75 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Energy storage cycle combined engine of the power generation method provided in 76 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engine of the power generation method provided in 77 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method which provided the generator in 78 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines of the power generation method which has a generator in 79 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 80 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 81 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method provided with 82 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy conservation cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines and a generator with thrust bearings, bearings, and a turbine outer box (77a) in 83 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combined engines of the power generation method which is provided with 84 types of liquid metal gravity opposing turbines and a generator with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method where three types of liquid metal gravity opposing turbines and a generator are provided in 85 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which is provided with 86 types of liquid metal gravity opposing turbines and power generators aimed at in 86 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various types of energy conservation cycle combined engines with power generation methods in which three types of metal gravity opposing turbines and a generator are provided in 87 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 88 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 89 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And various energy storage cycle combined engines of power generation method provided in 90 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engines of the power generation method provided in 91 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 92 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of power generation method in which a generator is provided in 93 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine case (77a) in 94 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 95 stages along with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle combined engines of the power generation method provided type and generator in 96 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method which provided the generator in 97 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engine of power generation method provided in 98 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of power generation method provided in 99 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 100 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of the power generation method provided in 101 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 102 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines of the power generation method provided with generator in 103 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines of the power generation method which provided the generator in 104 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combination engines of the power generation method which provided the generator with the thrust bearing, the bearing, and the turbine outer box (105a) in 105 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of power generation method in which the generator is provided in 106 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 107 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of the power generation method which is provided with 108 types of liquid metal gravity opposing turbines and a generator together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of the power generation method which is provided with 109 types of liquid metal gravity opposing turbines and a generator together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 110 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 111 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator were provided in 112 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of the power generation method provided in 113 stages with bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 114 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 115 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engine of power generation method provided in 116 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 117 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method in which the generator is provided in 118 stages along with thrust bearings, bearings, and a turbine casing (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy storage cycle combined engines of the power generation method in which the generator is provided in 119 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 120 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of power generation method in which the type and generator are provided in one stage together with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy storage cycle combined engines with power generation method in which a generator is provided in two stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engine of the power generation method provided in three stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of power generation method provided in four stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 5 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in six stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of power generation method provided in 7 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method provided with a generator in 8 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method provided with a generator in 9 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy preservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings, and a turbine outer case (77a) in 10 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 11 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method provided with 12 stages of thrust bearings, bearings and turbine outer box (77a) together with the bearings. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 13 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 14 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines aimed at and a generator with thrust bearings, bearings, and a turbine outer box (77a) in 15 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines to aim at and a generator with thrust bearings, bearings and a turbine outer box (77a) in 16 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 17 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of power generation method provided in 18 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 19 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 20 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engine of power generation method provided in 21 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 22 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator in 23 stages with thrust bearings, bearings, and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine case (77a) in 24 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 25 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 26 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method which provided the generator in 27 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box Various energy conservation cycle combined engines of the power generation method provided in 28 stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engines of the power generation method provided in 29 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 30 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 31 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of power generation method provided in 32 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines of the power generation method provided with a generator in 33 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines of the power generation method provided with a generator in 34 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 35 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 36 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 37 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 38 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator were provided in 39 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method where three types of liquid metal gravity opposing turbines aimed at and power generators are provided in 40 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of power generation method in which 3 types of liquid metal gravity opposing turbines aimed at and power generators are provided in 41 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 42 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 43 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 44 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 45 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engine of power generation method provided in 46 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 47 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 48 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 49 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 50 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engine of power generation method provided in 51 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 52 stages with the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of power generation method provided in 53 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 54 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engine of power generation method provided in 55 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 56 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And energy storage cycle combined engine of the power generation method provided in 57 stages with the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 58 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 59 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 60 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 61 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 62 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 63 stages along with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity facing turbines and power generators are provided in 64 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 65 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 66 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 67 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 68 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 69 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 70 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 71 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 72 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 73 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method that three types of liquid metal gravity opposing turbines and power generators are provided in 74 stages together with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method that three types of liquid metal gravity opposing turbines and power generators are provided in 75 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method that three types of liquid metal gravity opposing turbines aiming at increase and generators are provided in 76 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 77 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle combined engines of power generation method that three types of liquid metal gravity opposing turbines and power generators are provided in 78 stages along with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 79 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 80 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of the power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 81 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 82 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method which is provided with 83 types of liquid metal gravity opposing turbines and generators with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various types of energy storage cycle combined engines with power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 84 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method where three types of liquid metal gravity opposing turbines and a generator are provided in 85 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method which is provided with 86 types of liquid metal gravity opposing turbines and power generators aimed at in 86 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 87 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy conservation cycle combined engines of the power generation method in which three types of gravity opposing turbines and a generator were provided in 88 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy conservation cycle combined engines of the power generation method in which three types of gravity opposing turbines and a generator were provided in 89 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy storage cycle combined engines of power generation method in which three types of gravity opposing turbines and a generator are provided in 90 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy conservation cycle combined engines of the power generation method in which three types of gravity opposing turbines and a generator were provided in 91 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increase ball rise device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + liquid metal aiming at same water volume maximum output Various energy conservation cycle combined engines of power generation method in which three types of gravity opposing turbines and generators are provided in 92 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature increase with rising ball rising device (2F) + rising ball rising device (2F) for temperature control water and liquid metal rising and saving use + adding gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation amount Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 93 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rising ball rising device (2F) + rising ball rising device (2F) for rising storage and use of liquid metal and gravity + adding gravity acceleration vertically downward + acceleration of water in vacuum direction to generate power Various types of energy storage cycle combined engines with power generation method in which three types of liquid metal gravity facing turbines and power generators are provided in 94 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rise and fall + increase and rise device (2F) in the increase ball lift device (2F) save and use + add gravity acceleration vertically accelerated + water power generation as vacuum direction accelerated rolling contact Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 95 stages together with thrust bearings, bearings, and a turbine outer box (77a) aiming to increase the amount. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rise and fall + increase and rise device (2F) in the increase ball lift device (2F) save and use + add gravity acceleration vertically accelerated + water power generation as vacuum direction accelerated rolling contact Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 96 stages together with thrust bearings, bearings, and a turbine outer box (77a) aiming to increase the amount. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rising ball rising device (2F) with rising ball rising device (2F) rising storage use of water and liquid metal respectively + adding gravity acceleration vertically accelerating + liquid metal acceleration to increase power output Various types of energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and power generators are provided in 97 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 98 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combination engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine case (77a) in 99 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle coalescing engines of the power generation method in which the type and generator are provided in 100 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 101 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy storage cycle combined engines of the power generation method provided with a generator in 102 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) and various energy conservation cycle united engines of the power generation method provided in 103 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of the power generation method provided in 104 stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engines of the power generation method provided in 105 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of the power generation method provided in 106 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) and various energy conservation cycle combined engines of the power generation method provided in the 107th stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines of the power generation method provided with generator in 108 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines of the power generation method which has a generator in 109 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings and the turbine outer box (77a) in 110 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 111 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy storage cycle combined engines of the power generation method provided with 112 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 113 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combined engines of the power generation method which provided liquid metal gravity countering three kinds and a generator with thrust bearings, bearings and a turbine outer case (77a) in 114 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method that three types of liquid metal gravity opposing turbines aimed at and a generator are provided in 115 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method that three types of liquid metal gravity opposing turbines aimed at and power generators are provided in 116 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 117 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 118 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 119 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of the power generation method provided in 120 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And various energy storage cycle combined engines of the power generation method provided in one stage with the bearings and the turbine casing (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in two stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings, and the turbine outer box (77a) in three stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combination engines of the power generation method which provided the generator with thrust bearings, bearings and turbine outer box (77a) in four stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 5 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 6 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method provided with a generator in 7 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engine of power generation method provided in 8 stages together with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of the power generation method provided in 9 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 10 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 11 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of power generation method provided in 12 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method which provided the generator in 13 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines of the power generation method which provided the generator in 14 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings and turbine outer box (77a) in 15 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings and turbine outer box (77a) in 16 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 17 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and generators are provided in 18 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 19 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 20 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines aimed at and a generator with a thrust bearing, a bearing, and a turbine outer box (77a) in 21 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 22 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of power generation method provided in 23 stages with bearings and turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 24 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 25 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 26 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 27 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with 28 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method provided the generator with 29 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle coalescing engines of the power generation method in which the type and generator are provided in 30 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 31 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method provided with a generator in 32 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) and various energy conservation cycle united engines of the power generation method provided in 33 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engines of power generation method provided in 34 stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 35 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Energy storage cycle combination engine of the power generation method provided in 36 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy storage cycles combined engine of the power generation method provided in 37 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method which provided the generator in 38 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method which provided the generator in 39 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings, and a turbine outer box (77a) in 40 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 41 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy storage cycle combined engines of power generation method provided with 42 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 43 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 44 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of power generation method in which 3 types of liquid metal gravity opposing turbines and a generator are provided in 45 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of power generation method in which 3 types of liquid metal gravity opposing turbines aimed at and power generators are provided in 46 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various types of energy storage cycle combined engines with power generation methods in which three types of metal gravity opposing turbines and a generator are provided in 47 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 48 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in 49 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 50 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engine of power generation method provided in 51 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 52 stages with the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 53 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy preservation cycle combined engines of the power generation method which provided the generator with 54 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 55 stages along with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 56 stages along with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method which provided the generator in 57 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engines of power generation method provided in 58 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of power generation method provided in 59 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Energy storage cycle combined engine of the power generation method provided in 60 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engines of the power generation method provided in 61 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 62 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbine and Various energy storage cycle combined engines with power generation method in which the generator is provided in 63 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method which provided the generator in 64 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combination engines of the power generation method which provided the generator with the thrust bearing, the bearing, and the turbine outer box (77a) in 65 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy storage cycle combined engines of the power generation method in which the generator is provided in 66 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 67 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 68 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 69 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines to aim at and a generator with thrust bearings, bearings, and a turbine outer box (77a) in 70 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines to aim at and a generator with thrust bearings, bearings, and a turbine outer box (77a) in 71 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various types of energy storage cycle combined engines with power generation method in which three types of metal gravity opposing turbines and a generator are provided in 72 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of the power generation method provided in 73 stages with bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines of the power generation method provided in 74 stages with bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engines of power generation method provided in 75 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engines of the power generation method provided in 76 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 77 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator in 78 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with 79 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 80 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 81 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method provided with generator in 82 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) The various energy conservation cycle united engines of the power generation method provided in 83 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of power generation method provided in 84 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engines of the power generation method provided in 85 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Energy storage cycle combination engine of the power generation method provided in 86 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of power generation method provided in 87 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines with power generation method in which the generator is provided in 88 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method which set the generator in 89 stages together with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings and turbine outer box (77a) in 90 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 91 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy storage cycle combined engines of the power generation method provided with 92 stages of thrust bearings, bearings, and a turbine outer box (77a) with bearings. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy conservation cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator were provided in 93 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 94 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines and power generators with thrust bearings, bearings, and a turbine outer box (77a) in 95 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which is provided with 96 types of liquid metal gravity opposing turbines and power generators with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various types of energy storage cycle combined engines with power generation methods in which three types of metal gravity opposing turbines and a generator are provided in 97 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 98 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 99 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And various energy storage cycle combined engines of power generation method provided in 100 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of the power generation method provided in the 101st stage with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 102 stages with the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 103 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 104 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 105 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle coalescing engines of the power generation method in which the type and generator are provided in 106 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method which provided the generator in 107 stages with thrust bearings, bearings, and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle united engines of the power generation method provided in 108 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) and various energy conservation cycle united engines of the power generation method provided in 109 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engines of the power generation method provided in 110 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engines of the power generation method provided in 111 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 112 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines of the power generation method provided with a generator in 113 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method which provided the generator in 114 stages with thrust bearings, bearings and a turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings and turbine outer box (77a) in 115 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method in which the generator is provided in 116 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 117 stages with thrust bearings, bearings and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy conservation cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines and a generator with thrust bearings, bearings, and a turbine outer box (77a) in 118 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator were provided in 119 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 120 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in one stage together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various types of energy storage cycle combined engines with power generation methods in which three types of metal gravity opposing turbines and a generator are provided in two stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of power generation method provided in 3 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines with power generation method provided in four stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 5 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 6 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And energy storage cycle combined engine of power generation method provided in 7 stages with turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy preservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings, and the turbine outer box (77a) in eight stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with thrust bearings, bearings, and a turbine outer case (77a) in nine stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 10 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 11 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy storage cycle combined engines of the power generation method provided with a generator in 12 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engine of power generation method provided in 13 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engines of power generation method provided in 14 stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 15 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 16 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 17 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy storage cycle combined engines of the power generation method which provided the generator in 18 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy conservation cycle combined engines of the power generation method which set the generator in 19 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 20 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 21 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy storage cycle combined engines of power generation method provided with 22 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 23 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 24 stages together with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines to aim at and a generator with a thrust bearing, a bearing, and a turbine outer case (77a) in 25 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of power generation method in which three types of liquid metal gravity opposing turbines and a generator are provided in 26 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator are provided in 27 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 28 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Various energy storage cycle combined engines of power generation method provided in 29 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 30 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 31 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And various energy storage cycle combined engines of the power generation method provided in 32 stages with the turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction accelerating power generation aiming at three kinds of liquid metal gravity opposing turbine And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 33 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to aim to increase power generation 3 types of liquid metal gravity opposing turbine And various energy preservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 34 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy storage cycle combined engines of the power generation method provided type and generator in 35 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water direction with vacuum direction roll liquid metal gravity countering turbine 3 aiming at increase of output Various energy conservation cycle combined engines of the power generation method provided type and generator in 36 stages with thrust bearings, bearings, and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use the gravitational acceleration + accelerate vertically downward + accelerate the liquid metal to increase power generation Three types of liquid metal gravity opposing turbine and Various energy conservation cycle combined engines of the power generation method which provided the generator in 37 stages with thrust bearings, bearings and a turbine case (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer box (77a) Various energy conservation cycle combined engines of the power generation method provided in 38 stages with (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of liquid metal gravity opposing turbine three types and generators thrust bearings and bearings and turbine outer case (77a) Various energy conservation cycle combined engine of the power generation method provided in 39 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Various energy conservation cycle combined engine of power generation method provided in 40 stages with box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact with liquid metal gravity opposing turbine 3 types of liquid metal gravity opposing turbine aiming to increase power generation and thrust bearings and bearings outside the turbine Energy storage cycle combined engine of the power generation method provided in 41 stages with the box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Use water and liquid metal rise + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power generation 3 types of liquid metal gravity opposed turbine and thrust bearings, bearings and turbine outer case (generators) 77a) Various energy conservation cycle combined engines of the power generation method provided in 42 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + specific critical material vacuum direction acceleration power generation aiming at increasing the amount of three liquid metal gravity opposed turbines and Various energy conservation cycle combined engines of the power generation method provided with a generator in 43 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + vertically downward acceleration + vacuum direction of water to aim to increase power generation Three types of liquid metal gravity opposing turbines and Various energy storage cycle combined engines with power generation method in which the generator is provided in 44 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with the thrust bearing, the bearing and the turbine outer box (77a) in 45 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the water direction to accelerate rolling contact with liquid metal gravity opposing turbine 3 types aiming to increase the output And various energy conservation cycle combined engines of the power generation method which provided the generator with 46 stages of thrust bearings and bearings and the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature and temperature control water and liquid metal are raised and stored, respectively using the increasing ball lifter (2F) + gravity acceleration is added vertically downward + acceleration of the liquid metal to accelerate generation of the liquid metal Various energy conservation cycle combined engines of the power generation method which installed the machine in 47 stages with thrust bearings, bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and generators are provided in 48 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combined engines of power generation method in which three types of liquid metal gravity opposing turbines and generators are provided in 49 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines and a generator with thrust bearings, bearings, and a turbine outer box (77a) to aim at 50 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which is provided with 51 types of liquid metal gravity opposing turbines and a generator with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add vertical acceleration vertically + accelerate liquid metal to increase power output Various energy conservation cycle combined engines of power generation method in which three types of metal gravity opposing turbines and a generator were provided in 52 stages with thrust bearings, bearings, and a turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal respectively rising storage + use gravity acceleration vertically downward + specific critical material vacuum direction accelerating power generation aiming to increase the amount of liquid metal gravity opposing turbine three types and thrust bearings and generators Various energy storage cycle combined engines of power generation method provided in 53 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction of water to accelerate power generation to increase power generation 3 types of liquid metal gravity opposing turbine and thrust bearings and generators Energy storage cycle combined engine of power generation method provided in 54 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output And energy storage cycle combined engine of power generation method provided in 55 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal use respectively + save gravity + add gravity acceleration vertically downward + vacuum direction acceleration roll contact with liquid metal gravity counter-turbine 3 types and thrust bearings for generating power aimed at increasing output Energy storage cycle combined engine of power generation method provided in 56 stages with bearings and turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う液体金属重力対向タービン3種類及び発電機を推力軸受や軸受やタービン外箱(77a)と共に57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal respectively use + save + add gravity acceleration accelerate vertically down + accelerate liquid metal to increase power generation with three types of liquid metal gravity opposing turbine and thrust bearings and bearings for generators And energy storage cycle combined engine of the power generation method provided in 57 stages with the turbine outer box (77a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase ball rise device (2F) for temperature control respectively Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of generation of friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 58 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase ball rise device (2F) for temperature control respectively Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 59 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase ball rise device (2F) for temperature control respectively Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 60 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase ball rise device (2F) for temperature control respectively Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 61 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電海水温度上昇0燃料費0CO2排気0で発電量増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds drive + liquid metal gravity power generation seawater temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + increase ball rise device (2F) for temperature control respectively Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Friction loss reduction means (3) equipped with three types of liquid metal gravity counter-turbine 62 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 63 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 64 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 65 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with three stages of liquid metal gravity opposing turbines equipped with 66 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 67 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 68 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を69段に設けて1000倍発電量を狙う各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + vacuum direction of water to increase power generation with friction loss reduction means (3) A variety of energy storage cycle coalescing engines that aim at 1000 times the amount of power generation by providing 3 types of liquid metal gravity opposing turbines in 69 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 70 types of liquid metal gravity counter opposed turbines equipped with 70 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 71 stages of liquid metal gravity counter-turbine equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水銀を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate mercury vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 72 types of liquid metal gravity opposing turbines in 72 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy conservation cycle combined engines of the power generation method provided with three types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at the 73 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of the power generation method provided with 74 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) for aiming at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 75 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 76 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 77 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy conservation cycle combined engines of the power generation method provided with 78 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy conservation cycle combined engines of the power generation method provided with 79 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle combined engines of the power generation method provided with 80 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy conservation cycle combined engines of the power generation method provided with 81 types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at the 81 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle combined engines of the power generation method provided with 82 types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at the 82 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 83 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 84 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with 85 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle combined engines of the power generation method provided with 86 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 87 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 88 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 89 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 90 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 91 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 92 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 93 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method provided with 94 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with three types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase in 95 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 96 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 97 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 98 stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method provided with 99 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method provided with 100 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with three types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aimed at in 101 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 102 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 103 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 104 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を105段に設けた摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle coalescing engines of a power generation method in which three types of liquid metal gravity opposing turbines are provided in multiple stages equipped with friction loss reducing means (3) having three opposing turbines provided in 105 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided three opposing turbines in 106 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three kinds in 107 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical substances to vacuum direction Direction of friction loss reduction means to increase power generation (3) Various energy storage cycle combined engines of power generation method provided with 108 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 109 stages of 3 types of liquid metal gravity opposing turbines equipped with. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with three stages of liquid metal gravity opposing turbines provided in 110 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method which provided three stages of liquid metal gravity opposing turbines equipped with 111 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity opposing turbines equipped in 112 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 113 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 114 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 115 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy storage cycle united engines of the power generation method provided in 116 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + liquid metal acceleration to increase power generation friction loss reduction means (3) equipped with three types of liquid metal gravity counter-turbine 117 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 118 stages of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with three stages of liquid metal gravity counter-turbine equipped in 119 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with 120 stages of liquid metal gravity opposing turbines equipped with 120 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines equipped with one stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) The various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines in two stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in three stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in four stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of a power generation method provided with five stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with six types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with loss reduction means (3) in seven stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method which provided three types of turbines in eight stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method which provided three types of turbines in 9 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in 10 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method which provided 3 types of opposing turbines in 11 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of power generation method provided with 3 types in 12 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with 13 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 14 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 15 stages of liquid metal gravity opposing turbines equipped with 15 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 16 stages of liquid metal gravity counter-turbine 3 types equipped with). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity opposing turbines equipped in 17 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 18 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 19 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of power generation method provided in 20 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 21 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + additional gravity acceleration vertical downward acceleration + liquid metal acceleration to increase power generation friction loss reduction means (3) equipped with three types of liquid metal gravity counter-turbine 22 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 23 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity countering turbines equipped in 24 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 25 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 26 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 27 types of liquid metal gravity opposing turbines in 27 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy conservation cycle combination engines of the power generation method provided with 28 stages of liquid metal gravity opposing turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combination engines of the power generation method provided with 29 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of a power generation method provided with 30 stages of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) to be aimed. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 31 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 32 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of power generation method provided with 3 types of turbines in 33 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 34 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 35 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 36 types of opposing turbines provided in 36 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three kinds in 37 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical substances to vacuum direction Direction of friction loss reduction means to increase power generation (3) Various energy storage cycle combined engines of power generation method provided with 38 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 39 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 40 stages of liquid metal gravity opposing turbines equipped with 40 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method which provided three stages of liquid metal gravity opposing turbines equipped with 41 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 42 stages of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation 3 liquid metal gravity opposing turbine equipped with friction loss reduction means (3) 43 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise and use + addition of gravitational acceleration Vertical downward acceleration + vacuum direction of water to accelerate power generation to increase power generation with friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 44 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 45 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 46 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + liquid metal acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 47 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 48 stages of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity opposing turbines equipped in 49 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 50 stages of liquid metal gravity counter-turbine 3 types equipped with. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with 51 stages of liquid metal gravity opposing turbines equipped with 51 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines with power generation method provided with 52 types of liquid metal gravity opposing turbines in 52 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 53 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3) in 53 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combination engines of the power generation method provided with 54 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 55 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 56 types of liquid metal gravity counter-turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 57 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method which provided three types of turbines in 58 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy conservation cycle combined engine of the power generation method which provided 3 types of turbines in 59 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method provided with 60 types of three opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method which provided 3 types of opposing turbines in 61 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy storage cycle combined engine of the power generation method provided with 3 types in 62 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical substances to vacuum direction Direction of friction loss reduction means to increase power generation (3) Various energy storage cycle combined engines of the power generation method provided with 63 types of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy conservation cycle combined engines of power generation method provided with 64 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle coalescing engines of the power generation method provided with three stages of liquid metal gravity opposing turbines equipped with 65 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with three stages of liquid metal gravity opposing turbines equipped with 66 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter-turbines equipped in 67 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 68 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation increase friction amount reduction means (3) equipped with three types of liquid metal gravity opposing turbine 69 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 70 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines The various energy storage cycle united engines of the power generation method provided at the 71st stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise and storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Friction loss reduction means (3) equipped with three types of liquid metal gravity counter-turbine 72 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 73 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 74 stages of 3 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 75 types of liquid metal gravity counter-turbine equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy conservation cycle combined engines of the power generation method provided with 76 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) The various energy storage cycle combined engines of the power generation method provided with 77 types of liquid metal gravity opposing turbines in 77 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 78 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combination engines of the power generation method provided with 79 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combining engines of the power generation method provided with 80 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 81 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 82 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method provided with 83 types of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy conservation cycle combined engine of the power generation method which provided 3 types of turbines in 84 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 85 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 86 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of power generation method provided with 3 types in 87 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 88 types of liquid metal gravity opposing turbines equipped with. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 89 stages of liquid metal gravity opposing turbines equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 90 types of liquid metal gravity opposing turbines provided with 90 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 91 stages of liquid metal gravity opposing turbines provided with 91). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 92 stages of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 93 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise and save + add gravity acceleration Vertical downward acceleration + vacuum direction of water to accelerate generation of electricity by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 94 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 95 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 96 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power output friction loss reduction means (3) equipped with three types of liquid metal gravity counter turbine 97 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 98 stages of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 99 stages of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 100 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with three stages of liquid metal gravity opposing turbines equipped with 101 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 102 types of liquid metal gravity opposing turbines in 102 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy conservation cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in 103 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in 104 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 105 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 106 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity opposing turbines provided with loss reduction means (3) in 107 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy conservation cycle combined engine of the power generation method which provided 3 types of turbines in 108 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy conservation cycle combined engine of the power generation method which provided 3 types of turbines in 109 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method provided with three opposing turbines in 110 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method which provided three opposing turbines in 111 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy storage cycle combined engine of the power generation method provided with 3 types in 112 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with 113 stages of liquid metal gravity opposing turbines equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy conservation cycle combined engines of the power generation method provided with 114 stages of liquid metal gravity opposing turbines equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method which provided three stages of liquid metal gravity opposing turbines equipped with 115 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with three stages of liquid metal gravity opposing turbines provided in 116 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 117 stages of 3 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation 118 3 types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation increase friction amount reduction means (3) equipped with three types of liquid metal gravity opposing turbine 119 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy storage cycle combined engine of the power generation method provided in 120 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in one stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + liquid metal acceleration to increase power generation friction loss reduction means (3) equipped with three types of liquid metal gravity counter-turbine two stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped in four stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 5 stages of liquid metal gravity opposing turbines equipped with 5 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 6 types of liquid metal gravity opposing turbines equipped with 6 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 7 types of liquid metal gravity opposing turbines in 7 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy conservation cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in eight stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in nine stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of a power generation method provided with 10 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 11 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 12 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engines with power generation method with 13 types of turbines provided in 13 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を14段に設けて1000倍発電量を狙う各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Temperature control water and liquid metal respectively rising storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with liquid metal gravity opposing turbine A variety of energy storage cycle coalescing engine that aims at 1000 times power generation by providing 3 types in 14 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 15 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided 3 types of opposing turbines in 16 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of power generation method provided with 3 types in 17 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification + Increase the temperature control water and liquid metal respectively in the increase ball lift device (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + friction critical material to reduce the friction loss reduction means aiming at increasing the amount of vacuum power generation (3 The various energy storage cycle united engines of the power generation method provided with 18 stages of liquid metal gravity opposing turbines equipped with 18 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration + accelerate vertically downward + vacuum direction of water to aim at increasing power output Friction loss reduction means (3 The various energy storage cycle united engines of the power generation method provided with 19 stages of three types of liquid metal gravity opposing turbines equipped with the above. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save the gravity acceleration + vertically accelerate downward + accelerate the water in the vacuum direction accelerated rolling contact to reduce the friction loss to increase power output ( 3) Various energy storage cycle coalescing engines of a power generation method provided with 20 types of liquid metal gravity opposing turbines in 20 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save the gravity acceleration + vertically accelerate downward + accelerate the water in the vacuum direction accelerated rolling contact to reduce the friction loss to increase power output ( 3) Various energy storage cycle united engines of a power generation method provided with three stages of liquid metal gravity opposing turbines in 21 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification + Increase ball elevation device (2F) to raise temperature control water and liquid metal respectively + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power output friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 22 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification + Increase the temperature control water and liquid metal respectively in the increase ball lift device (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + friction critical material to reduce the friction loss reduction means aiming at increasing the amount of vacuum power generation (3 The various energy storage cycle united engines of the power generation method provided with 23 stages of liquid metal gravity opposing turbines provided with 23 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration + accelerate vertically downward + vacuum direction of water to aim at increasing power output Friction loss reduction means (3 The various energy storage cycle coalescing engines of the power generation method provided with 24 stages of liquid metal gravity opposing turbines equipped with 24 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save the gravity acceleration + vertically accelerate downward + accelerate the water in the vacuum direction accelerated rolling contact to reduce the friction loss to increase power output ( 3) Various energy conservation cycle combined engines of power generation method provided with 25 stages of 3 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save the gravity acceleration + vertically accelerate downward + accelerate the water in the vacuum direction accelerated rolling contact to reduce the friction loss to increase power output ( 3) Various energy conservation cycle combined engines of the power generation method provided with 26 stages of liquid metal gravity opposing turbines of 26 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase ball (2E) vertically downward with vacuum + full surface factory electrification + Increase ball elevation device (2F) to raise temperature control water and liquid metal respectively + save gravity + add gravity acceleration vertically downward + accelerate liquid metal to increase power output friction loss reduction means (3) Various energy conservation cycle combined engines of power generation method provided with 27 stages of liquid metal gravity opposing turbines equipped with 27 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy conservation cycle combined engines of the power generation method provided with 28 stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 29 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at the タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 30 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method provided with 31 stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with 32 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of a power generation method provided with 33 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) for aiming at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of a power generation method provided with 34 stages of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy conservation cycle combined engines of the power generation method provided with 35 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of a power generation method provided with 36 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of a power generation method provided with 37 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) for aiming at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 38 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with 39 stages of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with forty stages of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) for aiming at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of the power generation method provided with three types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at the 41 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with 42 stages of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 43 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle coalescing engines of a power generation method provided with 44 stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 45 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 46 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 47 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 48 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 49 types of liquid metal gravity counter-turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 50 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 51 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method provided with 52 stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 53 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method provided with 54 types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) to aim at 54 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 55 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 56 types of liquid metal gravity counter-turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combining engines of the power generation method provided with 57 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy conservation cycle combination engines of the power generation method which provided three kinds of liquid metal gravity countering turbines equipped with reduction means (3) in 58 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy storage cycle combination engines of the power generation method provided with five types of liquid metal gravity opposing turbines equipped with reduction means (3) in 59 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy conservation cycle combination engines of the power generation method which provided three kinds of liquid metal gravity countering turbines equipped with reduction means (3) in 60 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy storage cycle united engines of the power generation method provided with 61 types of liquid metal gravity opposing turbines equipped with reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy storage cycle combination engines of the power generation method provided with 62 types of liquid metal gravity opposing turbines equipped with reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the drop as much as possible with the increase ball lifter (2F) + raise the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration vertically accelerate downward + ratio critical substance vacuum Various energy storage cycle combining engines of the power generation method provided with three types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at increasing directionally accelerated power generation amount in 63 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the drop as much as possible with the increase ball lifter (2F) + raise the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration vertically accelerate downward + water direction vacuum Various energy storage cycle combining engines of the power generation method provided with 64 types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at increase of power generation amount. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the drop as much as possible with the increase ball lifter (2F) + raise the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add vertical acceleration vertically accelerate + accelerate water in the vacuum direction Various energy conservation cycle combined engines of the power generation method provided with three types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at increase of the amount of power generation as rolling contact in 65 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the drop as much as possible with the increase ball lifter (2F) + raise the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration vertically accelerate downward + water direction vacuum Various energy conservation cycle combined engines of the power generation method provided with three types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at increase of power generation amount as rolling contact in 66 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差を可能な限り上昇+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the drop as much as possible with the increase ball lifter (2F) + raise the temperature control water and liquid metal respectively with the increase ball lifter (2F) save + add gravity acceleration accelerate vertically downward + accelerate the liquid metal Various energy conservation cycle combined engines of the power generation method provided with 67 types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at increasing power generation amount. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 68 stages of liquid metal gravity opposing turbines equipped with. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy conservation cycle combined engines of the power generation method provided with 69 types of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 70 stages of liquid metal gravity opposing turbines equipped with 70 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 71 stages of liquid metal gravity opposing turbines equipped with a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 72 types of liquid metal gravity counter-turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity counter-turbine 73 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise and use + addition of gravitational acceleration Vertical downward acceleration + vacuum direction of water to accelerate power generation to increase power generation Friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 74 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 75 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 76 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise and use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 77 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 78 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 79 stages of 3 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) The various energy storage cycle combined engines of the power generation method provided with 80 stages of liquid metal gravity opposing turbines equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) The various energy storage cycle combined engines of the power generation method provided with 81 stages of liquid metal gravity opposing turbines equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) The various energy storage cycle combined engines of the power generation method provided with 82 types of liquid metal gravity opposing turbines in 82 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 83 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combination engines of the power generation method provided with 84 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 85 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 86 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 87 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engines with power generation method with 88 stages of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engines with power generation method with 89 stages of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method provided with 90 types of three opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in 91 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method provided with 3 types in 92 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Full-scale factory electrification + Increase the temperature control water and liquid metal respectively with increase ball lifter (2F) Save + use gravity acceleration vertically downward + specific critical substances increase the amount of vacuum direction acceleration power generation increase Various energy conservation cycle combined engines of the power generation method provided with 93 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Full-scale factory electrification to make up + Increase the temperature control water and liquid metal respectively with increase ball lifter (2F) Save + use gravity acceleration add vertically downward + accelerate water direction to increase power generation Various energy storage cycle combined engines of the power generation method provided with 94 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Full-scale factory electrification + Increase the temperature control water and liquid metal respectively with increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + increase power generation as water with vacuum direction accelerated rolling contact Various energy storage cycle coalescing engines of a power generation method provided with 95 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Full-scale factory electrification + Increase the temperature control water and liquid metal respectively with increase ball lifter (2F) Save + use gravity acceleration + accelerate vertically downward + increase power generation as water with vacuum direction accelerated rolling contact Various energy conservation cycle combined engines of the power generation method provided with 96 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面工場電化全盛ににする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Full-scale factory electrification is made + Temperature and temperature control water and liquid metal are raised and stored respectively with increase ball lift device (2F) + addition of gravitational acceleration vertically accelerated + liquid metal accelerated to increase power output Various energy storage cycle combination engines of the power generation method provided with 97 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 98 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 99 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 100 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in the 101st stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise and save + add gravity acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Friction loss reduction means (3) equipped with three types of liquid metal gravity counter-turbine 102 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped in 103 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combination engines of the power generation method which provided three stages of liquid metal gravity countering turbines equipped in 104 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 105 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 106 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) The various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines in 107 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 108 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in 109 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with three types of liquid metal gravity counter-turbines equipped with friction loss reduction means (3) to aim at in 110 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combining engines of the power generation method provided with three types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aimed at at 111 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method which provided three stages of liquid metal gravity countering turbines equipped with loss reduction means (3) in 112 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 113 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 114 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided 3 types of opposing turbines in 115 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided 3 types of opposing turbines in 116 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method provided with 3 types in 117 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 118 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) The various energy storage cycle combined engines of the power generation method provided with 119 stages of liquid metal gravity opposing turbines equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 120 stages of liquid metal gravity opposing turbines provided with 120 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method which provided three types of liquid metal gravity opposing turbines equipped with one) in one stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped in two stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction acceleration power generation aiming at increasing the amount of friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 3 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 4 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of power generation method provided in 5 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Energy storage cycle combination engine of the power generation method provided in six stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + liquid metal acceleration to increase power generation friction loss reduction means (3) equipped with three types of liquid metal gravity counter-turbine seven stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines equipped in eight stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 9 types of liquid metal gravity opposing turbines equipped in 9 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 10 types of liquid metal gravity counter-turbine equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 11 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 12 types of liquid metal gravity opposing turbines in 12 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 13 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combination engines of the power generation method which provided three stages of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in 14 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of a power generation method provided with 15 stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 16 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 17 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engines with power generation method with 18 stages of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 19 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 20 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 21 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of power generation method provided with 3 types in 22 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 23 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 24 stages of liquid metal gravity opposing turbines equipped with 24 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 25 stages of liquid metal gravity opposing turbines provided with 25 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 26 stages of liquid metal gravity opposing turbines equipped with 26 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity opposing turbines equipped in 27 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation 30 liquid metal gravity counter-turbine three types equipped with friction loss reduction means (3) Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation increase friction amount reduction means (3) equipped with three types of liquid metal gravity opposing turbine 29 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 30 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 31 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 32 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 33 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大方法とした摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) Save storage + add gravity acceleration Vertically accelerate downward + accelerate the water direction in vacuum direction to increase the amount of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 34 stages of liquid metal gravity opposed turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 35 stages of liquid metal gravity counter-turbine equipped with 35 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 36 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 37 types of liquid metal gravity opposing turbines in 37 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を38多段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy conservation cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in 38 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combination engines of the power generation method provided with 39 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 40 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 41 types of liquid metal gravity counter-turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 42 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engines with power generation method provided with 43 stages of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy conservation cycle combined engine of the power generation method which provided 3 stages of turbines in 44 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 45 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided 3 types of opposing turbines in 46 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy storage cycle combined engine of the power generation method provided with 3 types in 47 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 48 stages of liquid metal gravity opposing turbines equipped with 48 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 49 stages of liquid metal gravity opposing turbines equipped with 49 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 50 stages of liquid metal gravity opposing turbines equipped with 50 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 51 stages of liquid metal gravity opposing turbines equipped with 51 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 52 stages of 3 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation 3 liquid metal gravity opposing turbine equipped with friction loss reduction means (3) 53 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 54 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 55 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 56 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + liquid metal acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 57 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 58 stages of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 59 types of liquid metal gravity counter-turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 60 stages of liquid metal gravity opposing turbines equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) The various energy storage cycle combined engines of the power generation method provided with 61 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 62 types of liquid metal gravity opposing turbines in 62 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 63 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in 64 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 65 types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with three types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at 66 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 67 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method which provided 3 types of turbines in 68 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method which provided 3 types of turbines in 69 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method provided with three opposing turbines in 70 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided three types of opposing turbines in 71 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method provided with 3 types in 72 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical substances to vacuum direction Direction of friction loss reduction means to increase power generation (3) Various energy conservation cycle combined engines of the power generation method provided with 73 stages of liquid metal gravity opposing turbines equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy conservation cycle combined engines of power generation method provided with 74 stages of liquid metal gravity opposing turbines equipped with. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 75 types of liquid metal gravity opposing turbines provided with 75 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 76 stages of liquid metal gravity opposing turbines provided with 76 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity counter-turbines equipped in 77 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 78 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 79 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 80 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 81 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise and save + add gravity acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Friction loss reduction means (3) equipped with three types of liquid metal gravity counter turbine 82 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 83 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 84 stages of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 85 stages of liquid metal gravity opposing turbines equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 86 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) The various energy storage cycle combined engines of the power generation method provided with 87 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 88 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combination engines of the power generation method provided with 89 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 90 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 91 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 92 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 93 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy conservation cycle combined engine of the power generation method which provided 3 types of turbines in 94 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method which provided three opposing turbines in 95 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided three opposing turbines in 96 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three kinds in 97 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical substances to vacuum direction Direction of friction loss reduction means to increase power generation (3) Various energy storage cycle combined engines of power generation method provided with 98 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy conservation cycle combined engines of power generation method provided with 99 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 100 stages of liquid metal gravity counter-turbine 3 types equipped with). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with three types of liquid metal gravity opposing turbines provided in 101 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 102 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 103 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 104 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 105 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy storage cycle united engines of the power generation method provided in 106 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 107 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of vacuum power generation friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 108 stages of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped in 109 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with three stages of liquid metal gravity counter-turbine equipped with 110 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with three stages of liquid metal gravity counter-turbine equipped with 111 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) The various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity opposing turbines in 112 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 113 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in 114 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combining engines of the power generation method provided with three stages of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aimed at at 115 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with three stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at 116 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 117 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 118 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 119 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method provided with 120 types of three opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method in which 3 types of opposing turbines are provided in one stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three kinds in two stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with three types of liquid metal gravity opposing turbines equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy conservation cycle combined engines of power generation method provided with 4 types of liquid metal gravity opposing turbines equipped with 4 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with five stages of liquid metal gravity opposing turbines equipped with five types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method which provided three types of liquid metal gravity opposing turbines equipped with 6 types in 6 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped in seven stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 8 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 9 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of power generation method provided in 10 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy preservation cycle united engines of the power generation method provided in 11 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + additional gravity acceleration vertically downward acceleration + liquid metal acceleration to increase power generation friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 12 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided 13 types of liquid metal gravity opposing turbines equipped with 13 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity opposing turbines equipped in 14 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 15 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 16 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 17 types of liquid metal gravity opposing turbines in 17 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 18 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combination engines of the power generation method provided with 19 stages of liquid metal gravity opposing turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of a power generation method provided with 20 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 21 types of liquid metal gravity counter-turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy conservation cycle combined engines of the power generation method which provided three stages of liquid metal gravity countering turbines equipped with loss reduction means (3) in 22 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method which provided three types of turbines in 23 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of power generation method provided with 24 stages of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 25 types of three opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method which provided three opposing turbines in 26 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method provided with 3 types in 27 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of power generation method provided with 28 stages of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engines with power generation method with 29 stages of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of power generation method provided with 30 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided 3 types of opposing turbines in 31 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three kinds in 32 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of power generation method provided with 3 types of turbines in 33 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 34 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 35 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 36 types of opposing turbines provided in 36 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three kinds in 37 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy conservation cycle combined engines of the power generation method provided with 38 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with 39 stages of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 40 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy storage cycle coalescing engines of a power generation method provided with 41 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 42 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle combined engines of the power generation method provided with 43 types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at the 43 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of the power generation method provided with 44 stages of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of a power generation method provided with 45 stages of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle combined engines of the power generation method provided with 46 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy conservation cycle combined engines of the power generation method provided with 47 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at the タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle combined engines of the power generation method provided with 48 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of the power generation method provided with 49 types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at the 49 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with 50 stages of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) for aiming at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 51 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with 52 stages of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) for aiming at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method provided with 53 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 54 stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 55 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 56 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 57 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method provided with 58 stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method provided with five stages of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of a power generation method provided with 60 types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 61 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 62 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 63 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 64 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 65 types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method provided with three types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at 66 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 67 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy conservation cycle combination engines of the power generation method which provided three kinds of liquid metal gravity countering turbines equipped with reduction means (3) in 68 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy storage cycle combination engines of the power generation method provided with 69 types of liquid metal gravity opposing turbines equipped with reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy storage cycle united engines of the power generation method provided with 70 types of liquid metal gravity opposing turbines equipped with reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy storage cycle united engines of the power generation method provided with 71 types of liquid metal gravity opposing turbines equipped with reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy conservation cycle combination engines of the power generation method which provided three kinds of liquid metal gravity countering turbines equipped with reduction means (3) in 72 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature increase with rising ball rising device (2F) + rising ball rising device (2F) for temperature control water and liquid metal rising and saving use + adding gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation amount Various energy conservation cycle combined engines of the power generation method provided with 73 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rising ball rising device (2F) + rising ball rising device (2F) for rising storage and use of liquid metal and gravity + adding gravity acceleration vertically downward + acceleration of water in vacuum direction to generate power Various energy conservation cycle combined engines of the power generation method provided with 74 types of liquid metal gravity counter-turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rise and fall + increase and rise device (2F) in the increase ball lift device (2F) save and use + add gravity acceleration vertically accelerated + water power generation as vacuum direction accelerated rolling contact Various energy conservation cycle combined engines of the power generation method provided with 75 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at quantity increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rise and fall + increase and rise device (2F) in the increase ball lift device (2F) save and use + add gravity acceleration vertically accelerated + water power generation as vacuum direction accelerated rolling contact Various energy conservation cycle combined engines of the power generation method provided with 76 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at quantity increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rising ball rising device (2F) with rising ball rising device (2F) rising storage use of water and liquid metal respectively + adding gravity acceleration vertically accelerating + liquid metal acceleration to increase power output Various energy conservation cycle combined engines of the power generation method provided with 77 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 78 stages of liquid metal gravity counter-turbine equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy conservation cycle combined engines of power generation method provided with 79 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 80 stages of liquid metal gravity opposing turbines equipped with 80 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 81 stages of liquid metal gravity opposing turbines provided with the 81). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 82 stages of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 83 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation increase friction amount reduction means (3) equipped with liquid metal gravity opposing turbine 3 types 84 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 85 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 86 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising + storage use + additional gravity acceleration vertically downward + acceleration liquid metal to increase power generation friction loss reduction means (3) equipped with three types of liquid metal gravity counter turbine 87 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 88 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity opposing turbines equipped in 89 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with 90 types of liquid metal gravity opposing turbines equipped with 90 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) The various energy storage cycle combined engines of the power generation method provided with 91 stages of liquid metal gravity opposing turbines equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 92 types of liquid metal gravity opposing turbines in 92 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 93 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) in 94 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 95 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 96 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 97 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engines with power generation method with 98 stages of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 99 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method provided with three opposing turbines in 100 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided three opposing turbines in 101 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of power generation method provided with 3 types in 102 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 103 stages of liquid metal gravity counter-turbine equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 104 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method which provided three types of liquid metal gravity opposing turbines in 105 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with the liquid metal gravity opposing turbine 3 types of 106 types in the 106 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines equipped in 107 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 108 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 109 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy storage cycle united engines of the power generation method provided in 110 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy storage cycle united engines of the power generation method provided in 111 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + additional gravity acceleration vertically downward acceleration + liquid metal acceleration to increase power generation friction loss reduction means (3) equipped with three types of liquid metal gravity counter turbine 112 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped in 113 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 114 stages of liquid metal gravity counter-turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with three stages of liquid metal gravity counter-turbine equipped with 115 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle coalescing engines of the power generation method provided with three stages of liquid metal gravity opposing turbines equipped with 116 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) The various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity countering turbine in 117 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in 118 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in 119 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 120 types of liquid metal gravity counter-turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with the friction loss reduction means (3) aimed at in one stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity opposing turbines equipped with loss reduction means (3) in two stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 3 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 4 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided 3 types of opposing turbines in 5 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in six stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of power generation method provided with 3 types in 7 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 8 types of liquid metal gravity opposing turbines equipped with 8 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 9 types of liquid metal gravity opposing turbine 3 types equipped with. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 10 types of liquid metal gravity counter-turbine 3 types equipped with). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method which provided three stages of liquid metal gravity opposing turbines equipped with 11 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which equipped 12 kinds of liquid metal gravity opposing turbines equipped in 12 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 13 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + vacuum direction of water accelerating friction to reduce power loss (3) 3 types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 15 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy storage cycle combination engine of the power generation method provided in 16 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + liquid metal acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 17 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines equipped in 18 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity opposing turbines equipped in 19 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with 20 stages of liquid metal gravity opposing turbines equipped with 20 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 21 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) The various energy storage cycle combined engines of the power generation method provided with 22 types of liquid metal gravity opposing turbines in 22 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 23 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3) in 23 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combination engines of the power generation method provided with 24 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of a power generation method provided with 25 stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combining engines of the power generation method provided with 26 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 27 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of power generation method provided with 28 stages of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engines with power generation method with 29 stages of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of power generation method provided with 30 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided 3 types of opposing turbines in 31 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three kinds in 32 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy conservation cycle combined engines of the power generation method provided with 33 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 34 stages of liquid metal gravity opposed turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 35 stages of liquid metal gravity opposing turbines equipped with 35 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 36 stages of liquid metal gravity opposing turbines equipped with 36 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engine of the power generation method which provided three kinds of liquid metal gravity countering turbines equipped in 37 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 38 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising + storage use + addition of gravity acceleration vertically downward + + vacuum direction of water to accelerate power generation to increase the amount of power loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 39 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 40 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 41 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + liquid metal acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 42 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combination engines of the power generation method which provided three stages of liquid metal gravity countering turbines equipped in 43 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 44 stages of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 45 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 46 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 47 types of liquid metal gravity opposing turbines in 47 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 48 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combining engines of the power generation method provided with 49 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 50 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 51 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 52 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method provided with three types of turbines in 53 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engines with power generation method provided with 54 stages of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided 3 types of opposing turbines in 55 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 56 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of power generation method provided with 3 types in 57 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 58 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 59 stages of liquid metal gravity opposing turbines equipped with 5 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with three stages of liquid metal gravity opposing turbines equipped with 60 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with three stages of liquid metal gravity opposing turbines equipped with 61 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 62 stages of 3 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation 3 liquid metal gravity opposing turbine equipped with friction loss reduction means (3) 63 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + vacuum direction of water acceleration to increase power generation with friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 64 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 65 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 66 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Friction loss reduction means (3) equipped with three types of liquid metal gravity counter turbine 67 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 68 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter-turbines equipped in 69 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 70 types of liquid metal gravity counter opposed turbines equipped with 70 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 71 stages of liquid metal gravity counter-turbine equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 72 types of liquid metal gravity opposing turbines in 72 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 73 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combination engines of the power generation method provided with 74 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combining engines of the power generation method provided with 75 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 76 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 77 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method provided with 78 types of 3 turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 79 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method provided with 80 types of three opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 81 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method provided with 3 types in 82 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 83 stages of liquid metal gravity counter-turbine equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) The various energy storage cycle combined engines of the power generation method provided with 84 stages of liquid metal gravity opposing turbines equipped with. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 85 stages of liquid metal gravity opposing turbines provided with the 85) stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle coalescing engines of the power generation method provided with 86 stages of liquid metal gravity opposing turbines equipped with the above. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity opposing turbines equipped in 87 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 88 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise and save + add gravity acceleration Vertical downward acceleration + vacuum direction of water to accelerate power generation increase Friction amount reduction means (3) equipped with 3 types of liquid metal gravity opposing turbine 89 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 90 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 91 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Lift and use water and liquid metal + add gravity acceleration Accelerate vertically downward + accelerate liquid metal to increase power output Friction gear reduction means (3) equipped with 3 types of liquid metal gravity opposing turbines 92 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 93 types of liquid metal gravity counter-turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 94 types of liquid metal gravity counter-turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 95 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 96 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 97 types of liquid metal gravity opposing turbines in 97 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in 98 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity opposing turbines provided with friction loss reduction means (3) in 99 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 100 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with three types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aimed at in 101 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity opposing turbines provided with loss reduction means (3) in 102 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 103 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 104 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method provided with 3 types of opposing turbines in 105 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided three opposing turbines in 106 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three kinds in 107 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical substances to vacuum direction Direction of friction loss reduction means to increase power generation (3) Various energy storage cycle combined engines of power generation method provided with 108 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 109 stages of 3 types of liquid metal gravity opposing turbines equipped with. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with three stages of liquid metal gravity opposing turbines provided in 110 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method which provided three stages of liquid metal gravity opposing turbines equipped with 111 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity opposing turbines equipped in 112 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 113 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 114 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 115 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy storage cycle united engines of the power generation method provided in 116 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + liquid metal acceleration to increase power generation friction loss reduction means (3) equipped with three types of liquid metal gravity counter-turbine 117 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 118 stages of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with three stages of liquid metal gravity counter-turbine equipped in 119 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with 120 stages of liquid metal gravity opposing turbines equipped with 120 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines equipped with one stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) The various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines in two stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in three stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in four stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of a power generation method provided with five stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with six types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with loss reduction means (3) in seven stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method which provided three types of turbines in eight stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method which provided three types of turbines in 9 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in 10 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method which provided 3 types of opposing turbines in 11 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of power generation method provided with 3 types in 12 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with 13 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 14 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 15 stages of liquid metal gravity opposing turbines equipped with 15 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 16 stages of liquid metal gravity counter-turbine 3 types equipped with). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity opposing turbines equipped in 17 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 18 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 19 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of power generation method provided in 20 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 21 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + additional gravity acceleration vertical downward acceleration + liquid metal acceleration to increase power generation friction loss reduction means (3) equipped with three types of liquid metal gravity counter-turbine 22 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 23 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity countering turbines equipped in 24 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 25 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 26 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 27 types of liquid metal gravity opposing turbines in 27 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy conservation cycle combination engines of the power generation method provided with 28 stages of liquid metal gravity opposing turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combination engines of the power generation method provided with 29 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of a power generation method provided with 30 stages of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) to be aimed. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 31 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 32 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of power generation method provided with 3 types of turbines in 33 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 34 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 35 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 36 types of opposing turbines provided in 36 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three kinds in 37 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of power generation method provided with 3 types of turbines in 38 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 39 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 40 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method which provided 3 types of opposing turbines in 41 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy storage cycle combined engine of the power generation method provided with 3 types in 42 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engines with power generation method provided with 43 stages of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy conservation cycle combined engine of the power generation method which provided 3 stages of turbines in 44 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 45 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided 3 types of opposing turbines in 46 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy storage cycle combined engine of the power generation method provided with 3 types in 47 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle combined engines of the power generation method provided with 48 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of the power generation method provided with 49 types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at the 49 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 50 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 51 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with 52 stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy conservation cycle combined engines of the power generation method provided with 53 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy conservation cycle combined engines of the power generation method provided with 54 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of the power generation method provided with 55 types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at the 55 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy conservation cycle combined engines of the power generation method provided with 56 types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at the 56 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy conservation cycle combined engines of the power generation method provided with 57 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 58 stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of the power generation method provided with five types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at the 59 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with 60 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) for aiming at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of the power generation method provided with 61 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) for aiming at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of a power generation method provided with 62 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) for aiming at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 63 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 64 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with three types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase in 65 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with three stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase in 66 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 67 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 68 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 69 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method provided with 70 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 71 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 72 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 73 types of liquid metal gravity counter-turbines equipped with friction loss reduction means (3) to aim at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method provided with 74 types of liquid metal gravity counter-turbines equipped with friction loss reduction means (3) aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combining engines of the power generation method provided with 75 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method provided with 76 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 77 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy storage cycle combination engines of the power generation method provided with 78 types of liquid metal gravity opposing turbines equipped with reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy storage cycle combination engines of the power generation method provided with 79 types of liquid metal gravity opposing turbines provided with reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy storage cycle united engines of the power generation method provided with 80 types of liquid metal gravity opposing turbines provided with reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy storage cycle united engines of the power generation method provided with 81 types of liquid metal gravity opposing turbines provided with reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy storage cycle united engines of the power generation method provided with 82 stages of liquid metal gravity opposing turbines provided with reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature increase with rising ball rising device (2F) + rising ball rising device (2F) for temperature control water and liquid metal rising and saving use + adding gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation amount Various energy conservation cycle combined engines of the power generation method provided with 83 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rising ball rising device (2F) + rising ball rising device (2F) for rising storage and use of liquid metal and gravity + adding gravity acceleration vertically downward + acceleration of water in vacuum direction to generate power Various energy conservation cycle combined engines of the power generation method provided with 84 types of liquid metal gravity counter-turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rise and fall + increase and rise device (2F) in the increase ball lift device (2F) save and use + add gravity acceleration vertically accelerated + water power generation as vacuum direction accelerated rolling contact Various energy conservation cycle combined engines of the power generation method provided with 85 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at increasing quantity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rise and fall + increase and rise device (2F) in the increase ball lift device (2F) save and use + add gravity acceleration vertically accelerated + water power generation as vacuum direction accelerated rolling contact Various energy conservation cycle combined engines of the power generation method provided with 86 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming to increase the amount. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rising ball rising device (2F) with rising ball rising device (2F) rising storage use of water and liquid metal respectively + adding gravity acceleration vertically accelerating + liquid metal acceleration to increase power output Various energy conservation cycle combined engines of the power generation method provided with 87 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 88 types of liquid metal gravity opposing turbines equipped with. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 89 stages of liquid metal gravity opposing turbines equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 90 types of liquid metal gravity opposing turbines provided with 90 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 91 stages of liquid metal gravity opposing turbines provided with 91). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 92 stages of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 93 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise and save + add gravity acceleration Vertical downward acceleration + vacuum direction of water to accelerate generation of electricity by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 94 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 95 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 96 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power output friction loss reduction means (3) equipped with three types of liquid metal gravity counter turbine 97 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 98 stages of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 99 stages of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 100 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with three stages of liquid metal gravity opposing turbines equipped with 101 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 102 types of liquid metal gravity opposing turbines in 102 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy conservation cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in 103 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in 104 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 105 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 106 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity opposing turbines provided with loss reduction means (3) in 107 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy conservation cycle combined engine of the power generation method which provided 3 types of turbines in 108 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy conservation cycle combined engine of the power generation method which provided 3 types of turbines in 109 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method provided with three opposing turbines in 110 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method which provided three opposing turbines in 111 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy storage cycle combined engine of the power generation method provided with 3 types in 112 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with 113 stages of liquid metal gravity opposing turbines equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy conservation cycle combined engines of the power generation method provided with 114 stages of liquid metal gravity opposing turbines equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method which provided three stages of liquid metal gravity opposing turbines equipped with 115 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with three stages of liquid metal gravity opposing turbines provided in 116 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 117 stages of 3 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation 118 3 types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation increase friction amount reduction means (3) equipped with three types of liquid metal gravity opposing turbine 119 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy storage cycle combined engine of the power generation method provided in 120 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in one stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + liquid metal acceleration to increase power generation friction loss reduction means (3) equipped with three types of liquid metal gravity counter-turbine two stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped in four stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 5 stages of liquid metal gravity opposing turbines equipped with 5 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 6 types of liquid metal gravity opposing turbines equipped with 6 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 7 types of liquid metal gravity opposing turbines in 7 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy conservation cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in eight stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in nine stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of a power generation method provided with 10 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 11 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 12 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engines with power generation method with 13 types of turbines provided in 13 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method which provided three types of turbines in 14 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 15 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided 3 types of opposing turbines in 16 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of power generation method provided with 3 types in 17 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 18 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with three stages of liquid metal gravity counter-turbine equipped with 19 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 20 stages of liquid metal gravity opposing turbines equipped with 20 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle coalescing engines of the power generation method provided with 21 stages of liquid metal gravity opposing turbines equipped with 21). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 22 stages of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 23 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 24 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of power generation method provided in 25 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 26 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + additional gravity acceleration vertical downward acceleration + liquid metal acceleration to increase power generation friction loss reduction means (3) equipped with three types of liquid metal gravity counter-turbine 27 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 28 stages of liquid metal gravity opposing turbines equipped with 28 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which equipped 29 kinds of liquid metal gravity opposing turbines equipped in 29 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 30 stages of liquid metal gravity opposing turbines equipped with 30 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 31 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) The various energy storage cycle combined engines of the power generation method provided with 32 types of liquid metal gravity opposing turbines in 32 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 33 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combination engines of the power generation method which provided three stages of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in 34 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 35 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 36 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 37 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of power generation method provided with 3 types of turbines in 38 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 39 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 40 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method which provided 3 types of opposing turbines in 41 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy storage cycle combined engine of the power generation method provided with 3 types in 42 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 43 stages of liquid metal gravity opposing turbines equipped with 43 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy conservation cycle combined engines of power generation method provided with 44 stages of liquid metal gravity opposing turbines equipped with 4 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 45 stages of liquid metal gravity opposing turbines equipped with 45 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンを46段に設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大方法とした各種エネルギ保存サイクル合体機関。   Structure and method to accelerate liquid metal vertically downward by installing liquid metal gravity countering turbine 3 types + driving of liquid metal gravity power generation turbine in 46 stages with 2 to 26 times the turbine blade cross section (4X) + increasing ball lift device (2F A variety of energy storage cycle combined engines with temperature control water and liquid metal rising and storage use + addition of gravitational acceleration vertically downward acceleration + water acceleration direction rolling contact as acceleration rolling contact. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 47 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation 48 liquid metal gravity opposing turbines equipped with friction loss reduction means (3) 48 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise and use + addition of gravitational acceleration Vertical downward acceleration + vacuum direction of water to accelerate power generation to increase the amount of power generation with friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 49 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 50 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 51 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Friction loss reduction means (3) equipped with three types of liquid metal gravity counter turbine 52 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 53 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 54 stages of 3 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 55 stages of liquid metal gravity opposing turbines equipped with 55 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 56 stages of liquid metal gravity counter-turbine equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) The various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity countering turbine in 57 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 58 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combination engines of the power generation method provided with five types of liquid metal gravity opposing turbines provided with friction loss reducing means (3) in 59 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 60 types of liquid metal gravity counter-turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combining engines of the power generation method provided with 61 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 62 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of power generation method provided with 3 types of turbines in 63 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy conservation cycle combined engine of the power generation method which provided 3 types of turbines in 64 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method which provided 3 types of opposing turbines in 65 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided 3 types of opposing turbines in 66 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method provided with 3 types in 67 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 68 stages of liquid metal gravity opposing turbines equipped with. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy conservation cycle combined engines of the power generation method provided with 69 types of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 70 stages of liquid metal gravity opposing turbines equipped with 70 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 71 stages of liquid metal gravity opposing turbines equipped with a). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 72 types of liquid metal gravity counter-turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming at increasing the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity counter-turbine 73 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise and use + addition of gravitational acceleration Vertical downward acceleration + vacuum direction of water to accelerate power generation to increase power generation Friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 74 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 75 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 76 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise and use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 77 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 78 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 79 stages of 3 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) The various energy storage cycle combined engines of the power generation method provided with 80 stages of liquid metal gravity opposing turbines equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) The various energy storage cycle combined engines of the power generation method provided with 81 stages of liquid metal gravity opposing turbines equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) The various energy storage cycle combined engines of the power generation method provided with 82 types of liquid metal gravity opposing turbines in 82 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 83 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combination engines of the power generation method provided with 84 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 85 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 86 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 87 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engines with power generation method with 88 stages of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engines with power generation method with 89 stages of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method provided with 90 types of three opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method which provided three types of opposing turbines in 91 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method provided with 3 types in 92 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 93 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 94 stages of liquid metal gravity counter-turbine equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 95 stages of liquid metal gravity counter-turbine 3 types equipped with). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle coalescing engines of the power generation method provided with 96 stages of liquid metal gravity counter-turbine equipped with three types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines equipped in 97 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 98 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 99 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 100 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in the 101st stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise and save + add gravity acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Friction loss reduction means (3) equipped with three types of liquid metal gravity counter-turbine 102 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped in 103 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combination engines of the power generation method which provided three stages of liquid metal gravity countering turbines equipped in 104 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 105 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 106 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) The various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines in 107 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 108 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in 109 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with three types of liquid metal gravity counter-turbines equipped with friction loss reduction means (3) to aim at in 110 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combining engines of the power generation method provided with three types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aimed at at 111 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method which provided three stages of liquid metal gravity countering turbines equipped with loss reduction means (3) in 112 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 113 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 114 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided 3 types of opposing turbines in 115 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided 3 types of opposing turbines in 116 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method provided with 3 types in 117 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 118 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) The various energy storage cycle combined engines of the power generation method provided with 119 stages of liquid metal gravity opposing turbines equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 120 stages of liquid metal gravity opposing turbines provided with 120 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method which provided three types of liquid metal gravity opposing turbines equipped with one) in one stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped in two stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction acceleration power generation aiming at increasing the amount of friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 3 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 4 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of power generation method provided in 5 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Energy storage cycle combination engine of the power generation method provided in six stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + liquid metal acceleration to increase power generation friction loss reduction means (3) equipped with three types of liquid metal gravity counter-turbine seven stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity opposing turbines equipped in eight stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 9 types of liquid metal gravity opposing turbines equipped in 9 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 10 types of liquid metal gravity counter-turbine equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 11 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 12 types of liquid metal gravity opposing turbines in 12 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 13 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combination engines of the power generation method which provided three stages of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in 14 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of a power generation method provided with 15 stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 16 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 17 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engines with power generation method with 18 stages of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 19 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 20 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 21 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of power generation method provided with 3 types in 22 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 23 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 24 stages of liquid metal gravity opposing turbines equipped with 24 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 25 stages of liquid metal gravity opposing turbines provided with 25 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 26 stages of liquid metal gravity opposing turbines equipped with 26 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity opposing turbines equipped in 27 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation 30 liquid metal gravity counter-turbine three types equipped with friction loss reduction means (3) Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water to accelerate power generation increase friction amount reduction means (3) equipped with three types of liquid metal gravity opposing turbine 29 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 30 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 31 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 32 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 33 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity opposing turbines equipped in 34 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 35 stages of liquid metal gravity counter-turbine equipped with 35 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 36 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 37 types of liquid metal gravity opposing turbines in 37 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 38 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combination engines of the power generation method provided with 39 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy conservation cycle combined engines of the power generation method provided with 40 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 41 types of liquid metal gravity counter-turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 42 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engines with power generation method provided with 43 stages of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy conservation cycle combined engine of the power generation method which provided 3 stages of turbines in 44 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 45 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided 3 types of opposing turbines in 46 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy storage cycle combined engine of the power generation method provided with 3 types in 47 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method which provided 3 types of turbines in 48 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy conservation cycle combined engine of the power generation method which provided 3 types of turbines in 49 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method which provided 3 types of opposing turbines in 50 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided 3 types of opposing turbines in 51 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of power generation method provided with 3 types in 52 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method provided with three types of turbines in 53 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engines with power generation method provided with 54 stages of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided 3 types of opposing turbines in 55 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 56 types of opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力増大球(2E)を真空で垂直下方に吸引加速する構成や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Configuration and method to attract and accelerate liquid metal gravity opposing turbine 3 types of turbine blade cross section (4X) 2 to 26 times + liquid metal gravity power generation output increase sphere (2E) vertically downward with vacuum + increase sphere lifter (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of power generation method provided with 3 types in 57 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy conservation cycle combined engines of the power generation method provided with 58 stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of the power generation method provided with five types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at the 59 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of a power generation method provided with 60 types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 61 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 62 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy conservation cycle combined engines of the power generation method provided with 63 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) for aiming at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of the power generation method provided with 64 types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at 4 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy storage cycle coalescing engines of a power generation method provided with three types of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aiming at the 65 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy conservation cycle combined engines of the power generation method provided with three types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at the 66 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships go up + Temperature increase water lifter (2F) to raise the temperature control water and liquid metal respectively Save + add gravity acceleration + accelerate vertically downward + increase ratio of critical material to vacuum direction acceleration power generation increase Various energy conservation cycle combined engines of the power generation method provided with 67 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) for aiming at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を68段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle coalescing engines of the power generation method provided with 68 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を69段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy storage cycle combined engines of the power generation method provided with 69 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を70段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 70 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を71段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 71 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at the. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を72段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration Vertically downward + acceleration water direction to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 72 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を73段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 73 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を74段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 74 types of liquid metal gravity counter-turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を75段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 75 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を76段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 76 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を77段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 77 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を78段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 78 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を79段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of power generation method provided with 79 stages of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を80段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 80 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を81段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 81 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を82段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increasing ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + vertically downward acceleration + water as vacuum direction accelerated rolling contact Power output Various energy conservation cycle combined engines of the power generation method provided with 82 stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を83段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 83 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を84段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy storage cycle combined engines of the power generation method provided with 84 types of liquid metal gravity counter-turbines equipped with friction loss reduction means (3) to be aimed. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を85段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 85 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を86段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 86 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を87段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Augmented ball lifter (2F) to raise temperature control water and liquid metal respectively Save and use + add gravitational acceleration Vertically accelerate downward + accelerate liquid metal to increase power generation Various energy conservation cycle combined engines of the power generation method provided with 87 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を88段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy storage cycle united engines of the power generation method provided with 88 types of liquid metal gravity opposing turbines equipped with reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を89段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy conservation cycle combination engines of the power generation method which provided three kinds of liquid metal gravity countering turbines equipped with reduction means (3) in 89 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を90段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy storage cycle united engines of the power generation method provided with 90 types of liquid metal gravity opposing turbines provided with reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を91段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy storage cycle united engines of the power generation method provided with 91 stages of liquid metal gravity opposing turbines equipped with reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+、同一水量最大発電量を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を92段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Storage battery drive to make various ships flourish + Increased ball raising device (2F) to raise temperature control water and liquid metal respectively Save and use + add gravity acceleration + accelerate vertically downward + friction loss aiming for the same amount of power generation Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity opposing turbines provided with reduction means (3) in 92 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を93段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Temperature increase with rising ball rising device (2F) + rising ball rising device (2F) for temperature control water and liquid metal rising and saving use + adding gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation amount Various energy conservation cycle combined engines of the power generation method provided with 93 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を94段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rising ball rising device (2F) + rising ball rising device (2F) for rising storage and use of liquid metal and gravity + adding gravity acceleration vertically downward + acceleration of water in vacuum direction to generate power Various energy conservation cycle combined engines of power generation method provided with 94 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at increase. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を95段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rise and fall + increase and rise device (2F) in the increase ball lift device (2F) save and use + add gravity acceleration vertically accelerated + water power generation as vacuum direction accelerated rolling contact Various energy conservation cycle combined engines of the power generation method provided with three stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at quantity increase in 95 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を96段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rise and fall + increase and rise device (2F) in the increase ball lift device (2F) save and use + add gravity acceleration vertically accelerated + water power generation as vacuum direction accelerated rolling contact Various energy conservation cycle combined engines of the power generation method provided with 96 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) aiming at increase in quantity. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で落差増大+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を97段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Water and liquid metal for temperature control with rising ball rising device (2F) with rising ball rising device (2F) rising storage use of water and liquid metal respectively + adding gravity acceleration vertically accelerating + liquid metal acceleration to increase power output Various energy conservation cycle combined engines of the power generation method provided with 97 types of liquid metal gravity opposing turbines equipped with friction loss reducing means (3) aiming at タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を98段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical substances to vacuum direction Direction of friction loss reduction means to increase power generation (3) Various energy storage cycle combined engines of power generation method provided with 98 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を99段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy conservation cycle combined engines of power generation method provided with 99 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を100段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 100 stages of liquid metal gravity counter-turbine 3 types equipped with). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を101段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with three types of liquid metal gravity opposing turbines provided in 101 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を102段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 102 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を103段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 103 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を104段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 104 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を105段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 105 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を106段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy storage cycle united engines of the power generation method provided in 106 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を107段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 107 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を108段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of vacuum power generation friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 108 stages of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を109段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped in 109 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を110段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with three stages of liquid metal gravity counter-turbine equipped with 110 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を111段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with three stages of liquid metal gravity counter-turbine equipped with 111 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を112段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) The various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity opposing turbines in 112 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を113段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 113 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を114段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy conservation cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in 114 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を115段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combining engines of the power generation method provided with three stages of liquid metal gravity counter-turbine equipped with friction loss reduction means (3) aimed at at 115 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を116段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with three stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at 116 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を117段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 117 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を118段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 118 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を119段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of the power generation method provided with 3 types of turbines in 119 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を120段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method provided with 120 types of three opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を1段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method in which 3 types of opposing turbines are provided in one stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を2段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method which provided three kinds in two stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を3段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with three types of liquid metal gravity opposing turbines equipped with three types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を4段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy conservation cycle combined engines of power generation method provided with 4 types of liquid metal gravity opposing turbines equipped with 4 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を5段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with five stages of liquid metal gravity opposing turbines equipped with five types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を6段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method which provided three types of liquid metal gravity opposing turbines equipped with 6 types in 6 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を7段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combination engines of the power generation method which provided three types of liquid metal gravity countering turbines equipped in seven stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を8段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 8 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を9段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravitational acceleration vertical downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 9 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を10段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of power generation method provided in 10 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を11段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy preservation cycle united engines of the power generation method provided in 11 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を12段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + additional gravity acceleration vertically downward acceleration + liquid metal acceleration to increase power generation friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 12 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を13段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided 13 types of liquid metal gravity opposing turbines equipped with 13 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を14段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity opposing turbines equipped in 14 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を15段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 15 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を16段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 16 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を17段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 17 types of liquid metal gravity opposing turbines in 17 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を18段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 18 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を19段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combination engines of the power generation method provided with 19 stages of liquid metal gravity opposing turbines equipped with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を20段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of a power generation method provided with 20 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を21段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combined engines of the power generation method provided with 21 types of liquid metal gravity counter-turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を22段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy conservation cycle combined engines of the power generation method which provided three stages of liquid metal gravity countering turbines equipped with loss reduction means (3) in 22 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を23段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method which provided three types of turbines in 23 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を24段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy storage cycle combined engine of power generation method provided with 24 stages of 3 types of turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を25段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engines with power generation method with 25 types of three opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を26段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method which provided three opposing turbines in 26 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を27段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of the power generation method provided with 3 types in 27 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を28段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 28 stages of liquid metal gravity opposing turbines equipped with 28 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を29段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 29 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を30段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 30 stages of liquid metal gravity opposing turbines provided with 30). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を31段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 31 stages of liquid metal gravity opposing turbines equipped with 31). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を32段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 32 stages of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を33段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction liquid reduction means (3) equipped with three types of liquid metal gravity opposing turbine 33 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を34段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water acceleration to increase power output friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 34 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を35段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 35 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を36段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 36 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を37段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertical downward acceleration + liquid metal acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 37 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を38段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 38 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を39段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three stages of liquid metal gravity countering turbines equipped in 39 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を40段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 40 stages of liquid metal gravity opposing turbines equipped with 40 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を41段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) The various energy storage cycle combined engines of the power generation method provided with 41 stages of liquid metal gravity opposing turbines equipped with 4 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を42段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 42 types of liquid metal gravity opposing turbines in 42 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を43段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save gravity + add acceleration vertically downward + target critical materials to increase vacuum power generation Various energy storage cycle combination engines of the power generation method provided with 43 types of liquid metal gravity opposing turbines provided with friction loss reducing means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を44段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the water direction to increase power generation amount Various energy storage cycle combination engines of the power generation method which provided three stages of liquid metal gravity countering turbines equipped with friction loss reduction means (3) in 44 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を45段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle coalescing engines of a power generation method provided with 45 stages of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を46段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the power generation amount by raising the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + adding gravity acceleration vertically downward + accelerating the water by vacuum rolling direction rolling contact Various energy storage cycle combining engines of the power generation method provided with 46 types of liquid metal gravity opposing turbines equipped with friction loss reduction means (3) to be aimed at. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+全面電化住宅全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を47段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively by using an increase ball lift device (2F) + save and use gravity + add acceleration vertically downward + accelerate the liquid metal to increase power generation by friction Various energy storage cycle combination engines of the power generation method provided with 47 types of liquid metal gravity opposing turbines equipped with loss reduction means (3). タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を48段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) temperature control water and liquid metal rising and storing + adding gravity acceleration vertically downward + specific critical material vacuum direction accelerated power generation aiming to increase the amount of power generation friction loss reducing means (3) equipped with liquid metal gravity facing Various energy storage cycle combined engine of the power generation method which provided 3 types of turbines in 48 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を49段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F 2.) temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating the water in a vacuum direction to increase power generation by friction loss reducing means (3) liquid metal gravity opposing Various energy conservation cycle combined engine of the power generation method which provided 3 types of turbines in 49 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を50段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy storage cycle combined engine of the power generation method which provided 3 types of opposing turbines in 50 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を51段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F Liquid water gravity equipped with friction loss reduction means (3) aiming to increase power output as temperature control water and liquid metal rise and save use + add gravity acceleration vertically downward + vacuum direction accelerated rolling contact with water Various energy conservation cycle combined engine of the power generation method which provided 3 types of opposing turbines in 51 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+水や液体金属を垂直下方に加速する構造や方法+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を52段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross-section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + structure and method to accelerate water and liquid metal vertically downward + battery drive various automobile kind prime + increase ball lift device (2F A) Liquid metal gravity opposing turbine equipped with friction loss reduction means (3) aiming to increase power generation by using temperature control water and liquid metal rising and storing + adding gravitational acceleration vertically downward + accelerating liquid metal to increase power output Various energy conservation cycle combined engine of power generation method provided with 3 types in 52 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を53段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the ratio of critical material to vacuum direction Direction of friction loss reduction means aiming at increasing the amount of power generation (3) Various energy storage cycle combined engines of power generation method provided with 53 stages of liquid metal gravity counter-turbine equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を54段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + save the gravity acceleration + accelerate vertically downward + accelerate the water direction in vacuum direction to aim at increase of power generation Friction loss reduction means (3) Various energy storage cycle combined engines of power generation method provided with 54 stages of liquid metal gravity opposing turbines equipped with. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を55段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 55 stages of liquid metal gravity opposing turbines equipped with 55 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を56段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lift device (2F) + add gravity acceleration + accelerate vertically downward + accelerate the water by vacuum direction accelerated rolling contact friction loss reduction means aiming to increase the amount of power generation (3 The various energy storage cycle united engines of the power generation method provided with 56 stages of liquid metal gravity opposing turbines provided with 56 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて液体金属を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を57段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally + Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save using gravity + add gravity acceleration + accelerate vertically downward + accelerate the liquid metal to increase power output Friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method which provided three types of liquid metal gravity counter-turbines equipped in 57 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を58段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + add gravity acceleration vertically downward acceleration + ratio critical material vacuum direction accelerated power generation aiming to increase the amount of generation of friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 58 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を59段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rising storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction of water acceleration to increase power generation by friction loss reduction means (3) equipped with three types of liquid metal gravity opposing turbine 59 Energy storage cycle combination engine of power generation method provided in the stage. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を60段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 60 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を61段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravity acceleration vertically downward acceleration + vacuum direction accelerated rolling contact rolling contact with friction loss reduction means (3) aiming to increase the amount of power generation Three liquid metal gravity opposing turbines Various energy conservation cycle combined engine of the power generation method provided in 61 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電出力発生タービン翼を1/10前後にする設備方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を62段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 kinds of driving + liquid metal gravity power generation output generation turbine blade about 1/10 around temperature control with the increasing ball rising device (2F) Water and liquid metal rise storage use + addition of gravitational acceleration Vertical downward acceleration + liquid metal acceleration to increase power generation Friction loss reduction means (3) equipped with three types of liquid metal gravity counter-turbine 62 stages Various energy storage cycle combination engine of the power generation method provided in. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+比重大物質を真空方向加速発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を63段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save the gravity + add the gravity acceleration vertically downward + accelerate the ratio critical material to increase the amount of power in the vacuum direction friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 63 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を64段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction by vacuum to accelerate the power generation by means of friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 64 types of liquid metal gravity opposing turbines equipped. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を65段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy conservation cycle combined engines of power generation method provided with 65 stages of liquid metal gravity opposing turbines equipped with 3 types. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+水を真空方向加速転がり接触として発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を66段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively using the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the water direction to vacuum roll contact friction loss reduction means aiming to increase the amount of power generation (3) Various energy storage cycle combined engines of the power generation method provided with three stages of liquid metal gravity opposing turbines equipped with 66 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+液体金属重力発電タービンや発電機を軸方向水平に1〜12設けて水を垂直下方に加速する構造や方法+増大球上昇装置(2F)で夫々温度管理の水と液体金属を上昇保存使用+重力加速度を追加垂直下方に加速+液体金属を加速して発電量増大を狙う摩擦損失低減手段(3)を具備した液体金属重力対向タービン3種類を67段に設けた発電方法の各種エネルギ保存サイクル合体機関。   Structure and method to accelerate water vertically downward by providing turbine blade cross section (4X) 2 to 26 times liquid metal gravity opposing turbine 3 types drive + liquid metal gravity power generation turbine or generator 1 to 12 axially horizontally Increase the temperature control water and liquid metal respectively with the increase ball lifter (2F) + save gravity + add gravity acceleration vertically downward + accelerate the liquid metal to increase power output with friction loss reduction means (3) Various energy storage cycle combined engines of the power generation method provided with 67 types of liquid metal gravity opposing turbines. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+合金を含む液体金属を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+保温増大球上昇装置(2F)で合金を含む液体金属を上昇保存使用する+長レンズの幅増大加熱の空気を圧縮して1200度に近付ける+比重大物質を垂直下方に加速発電量増大狙う保温装置を具備した液体金属重力対向タービンを68段に設けた+太陽光加熱器を水面上で傾斜回転させる各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal containing 2 to 26 times liquid metal gravity counter-turbine cross section (4X) + liquid metal containing alloy vertically downward in heat retention turbine + making full surface electrification house prime + heat retention increase sphere rise In the device (2F), use liquid metal containing alloy ascending + using width increase lens of long lens Compress air of heating lens to approach 1200 degree + specific thermal material equipped with heat retention device aiming to increase power generation amount vertically downward A 68-stage liquid metal gravity counter-turbine is provided + a variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+合金を含む液体金属を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+保温増大球上昇装置(2F)で合金を含む液体金属を上昇保存使用する+長レンズの幅増大加熱の空気を圧縮して1200度に近付ける+より重い物質を垂直下方に加速して発電量増大を狙う保温装置を具備した液体金属重力対向タービンを69段に設けた+太陽光加熱器を水面上で傾斜回転させる各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal containing 2 to 26 times liquid metal gravity counter-turbine cross section (4X) + liquid metal containing alloy vertically downward in heat retention turbine + making full surface electrification house prime + heat retention increase sphere rise In the device (2F), use liquid metal containing alloy ascending + using width increase lens of long lens Compress air of heating to make it approach 1200 degree + thermal insulator which aims to increase power output by accelerating heavier material vertically downward There are 69 stages of liquid metal gravity opposing turbines equipped with a + + energy storage cycle combined engine that tilts and rotates a solar heater on the water surface. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+合金を含む液体金属を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+保温増大球上昇装置(2F)で合金を含む液体金属を上昇保存使用する+長レンズの幅増大加熱の空気を圧縮して1200度に近付ける+合金を含む液体金属を垂直下方に加速転がり接触として発電量増大を狙う保温装置を具備した液体金属重力対向タービンを70段に設けた+太陽光加熱器を水面上で傾斜回転させる各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal containing 2 to 26 times liquid metal gravity counter-turbine cross section (4X) + liquid metal containing alloy vertically downward in heat retention turbine + making full surface electrification house prime + heat retention increase sphere rise Increase storage power of liquid metal containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid metal containing alloy downward vertically A variety of energy storage cycle coalescing engines that are equipped with 70 stages of liquid metal gravity opposing turbines equipped with a heat retention device to be aimed + tilt rotation of the solar heater on the water surface. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+合金を含む液体金属を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+保温増大球上昇装置(2F)で合金を含む液体金属を上昇保存使用する+長レンズの幅増大加熱の空気を圧縮して1200度に近付ける+高温合金を含む液体金属を垂直下方に加速転がり接触として発電量増大を狙う保温装置を具備した液体金属重力対向タービンを71段に設けた+太陽光加熱器を水面上で傾斜回転させる各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal containing 2 to 26 times liquid metal gravity counter-turbine cross section (4X) + liquid metal containing alloy vertically downward in heat retention turbine + making full surface electrification house prime + heat retention increase sphere rise Increase storage use of liquid metal containing alloy in device (2F) + compress width of long lens width increase heating air to approach 1200 degrees + increase power generation as accelerated rolling contact with liquid metal containing high temperature alloy vertically downward A 71-stage liquid metal gravity counter-turbine equipped with a heat retention device aimed at + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動+合金を含む液体金属を保温タービン内垂直下方に加速する構造や方法+全面電化住宅全盛にする+保温増大球上昇装置(2F)で合金を含む液体金属を上昇保存使用する+長レンズの幅増大加熱の空気を圧縮して1200度に近付ける+合金を含む液体金属を重力で加速して発電量増大を狙う保温装置を具備した液体金属重力対向タービンを72段に設けた+太陽光加熱器を水面上で傾斜回転させる各種エネルギ保存サイクル合体機関。   Structure and method of accelerating liquid metal containing 2 to 26 times liquid metal gravity counter-turbine cross section (4X) + liquid metal containing alloy vertically downward in heat retention turbine + making full surface electrification house prime + heat retention increase sphere rise In the device (2F), use liquid metal containing alloy ascending + using width increase lens of long lens Compress air of heating to make it approach 1200 degrees + heat holding liquid metal containing alloy with gravity aiming to increase power output A 72-stage liquid metal gravity counter-turbine equipped with an apparatus + various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動から選択や方法+蓄電池駆動各種自動車類全盛にする+保温増大球上昇装置(2F)で合金を含む液体金属を上昇保存使用する+長レンズの幅増大加熱の空気を圧縮して1200度に近付ける+比重大物質を垂直下方に加速発電量増大狙う保温装置を具備した液体金属重力対向タービンを73段に設けた+太陽光加熱器を水面上で傾斜回転させる各種エネルギ保存サイクル合体機関。   From 2 to 26 times liquid metal gravity opposing turbine 3 types of drive selection and method of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + rise in liquid metal including alloy with heat retention increasing ball lifter (2F) Storage + Compression of the width of the long lens Heating compressed air to approach 1200 degrees + Specific critical substance accelerated downward vertically downward power generation A liquid metal gravity counter-turbine equipped with a heat retention device aimed at increase in 73 + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動から選択や方法+蓄電池駆動各種自動車類全盛にする+保温増大球上昇装置(2F)で合金を含む液体金属を上昇保存使用する+長レンズの幅増大加熱の空気を圧縮して1200度に近付ける+より重い物質を垂直下方に加速して発電量増大を狙う保温装置を具備した液体金属重力対向タービンを74段に設けた+太陽光加熱器を水面上で傾斜回転させる各種エネルギ保存サイクル合体機関。   From 2 to 26 times liquid metal gravity opposing turbine 3 types of drive selection and method of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + rise in liquid metal including alloy with heat retention increasing ball lifter (2F) Storage and use + Compression of long lens width expansion heating air to approach 1200 degrees + Acceleration of heavier substances vertically downward to increase power generation by liquid metal gravity facing turbine with 74 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動から選択や方法+蓄電池駆動各種自動車類全盛にする+保温増大球上昇装置(2F)で合金を含む液体金属を上昇保存使用する+長レンズの幅増大加熱の空気を圧縮して1200度に近付ける+合金を含む液体金属を垂直下方に加速転がり接触として発電量増大を狙う保温装置を具備した液体金属重力対向タービンを75段に設けた+太陽光加熱器を水面上で傾斜回転させる各種エネルギ保存サイクル合体機関。   From 2 to 26 times liquid metal gravity opposing turbine 3 types of drive selection and method of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + rise in liquid metal including alloy with heat retention increasing ball lifter (2F) Storage and use + Compression of air for width increase heating of long lens + Close to 1200 degree + Liquid metal gravity counter surface turbine equipped with heat retention device aiming at power generation increase as liquid metal containing alloy is accelerated vertically downward rolling contact A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 75 stages. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動から選択や方法+蓄電池駆動各種自動車類全盛にする+保温増大球上昇装置(2F)で合金を含む液体金属を上昇保存使用する+長レンズの幅増大加熱の空気を圧縮して1200度に近付ける+高温合金を含む液体金属を垂直下方に加速転がり接触として発電量増大を狙う保温装置を具備した液体金属重力対向タービンを76段に設けた+太陽光加熱器を水面上で傾斜回転させる各種エネルギ保存サイクル合体機関。   From 2 to 26 times liquid metal gravity opposing turbine 3 types of drive selection and method of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + rise in liquid metal including alloy with heat retention increasing ball lifter (2F) Storage and use + Compression of air for width increase heating of long lens to approach 1200 degrees + Liquid metal gravity facing turbine equipped with heat retention device aiming at increase of output as accelerated rolling contact with liquid metal containing high temperature alloy vertically downward 76 stages of + + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface. タービン翼断面(4X)を2〜26倍の液体金属重力対向タービン3種類駆動から選択や方法+蓄電池駆動各種自動車類全盛にする+保温増大球上昇装置(2F)で合金を含む液体金属を上昇保存使用する+長レンズの幅増大加熱の空気を圧縮して1200度に近付ける+合金を含む液体金属を重力で加速して発電量増大を狙う保温装置を具備した液体金属重力対向タービンを77段に設けた+太陽光加熱器を水面上で傾斜回転させる各種エネルギ保存サイクル合体機関。   From 2 to 26 times liquid metal gravity opposing turbine 3 types of drive selection and method of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + rise in liquid metal including alloy with heat retention increasing ball lifter (2F) 77 stages of liquid metal gravity counter-turbine equipped with a heat retention device aiming to increase power generation by accelerating the liquid metal containing the alloy by compressing the air of the extended use of storage + long lens and heating to approach 1200 degrees + gravity + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface. タービン翼断面(4X)を2〜26倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle united engines which are driven by liquid metal including a synchronous opposing heat retaining turbine having a gravitational acceleration portion (1g) provided with a turbine blade cross section (4X) 2 to 26 times. タービン翼断面(4X)を2倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including an alloyed synchronous heat retaining turbine having a gravity acceleration section (1g) each provided with a doubled turbine blade cross section (4X). タービン翼断面(4X)を3倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including alloy facing synchronous heat retaining turbine having a gravity acceleration section (1g) each provided with triple turbine blade cross section (4X). タービン翼断面(4X)を4倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including an alloyed synchronous heat retaining turbine having a gravity acceleration section (1g) each provided with a quadruple turbine blade cross section (4X). タービン翼断面(4X)を5倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including alloy facing synchronous heat retaining turbines each equipped with a gravity acceleration section (1g) provided with 5 times the turbine blade cross-section (4X). タービン翼断面(4X)を6倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including an alloyed synchronous heat retaining turbine equipped with a gravity acceleration section (1g) each provided with a turbine blade cross-section (4X) six times. タービン翼断面(4X)を7倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including alloy facing synchronous heat retaining turbine having a gravity acceleration section (1g) each provided with a 7 times larger turbine blade cross section (4X). タービン翼断面(4X)を8倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including an alloyed synchronous heat retaining turbine having a gravity acceleration section (1g) each provided with a turbine blade cross section (4X) eight times. タービン翼断面(4X)を9倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including an alloyed synchronous heat retaining turbine having a gravity acceleration section (1g) each provided with a 9 times larger turbine blade cross section (4X). タービン翼断面(4X)を10倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including an alloyed synchronous heat retaining turbine having a gravity acceleration section (1g) provided with a 10 times larger turbine blade cross section (4X). タービン翼断面(4X)を11倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including an alloyed synchronous heat retaining turbine having a gravity acceleration section (1g) each provided with a turbine blade cross section (4X) at 11 times. タービン翼断面(4X)を12倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including alloy facing synchronous heat retaining turbine having a gravity acceleration section (1g) each provided with a 12 times larger turbine blade cross section (4X). タービン翼断面(4X)を13倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including an alloyed synchronous heat retaining turbine having a gravity acceleration section (1g) each provided with a 13 × turbine blade cross section (4 ×). タービン翼断面(4X)を14倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including an alloyed synchronous heat retaining turbine having a gravity acceleration section (1g) each provided with a turbine blade cross section (4X) 14 times. タービン翼断面(4X)を15倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including alloy facing synchronous heat retaining turbine having a gravity acceleration section (1g) provided with 15 times the turbine blade cross section (4X). タービン翼断面(4X)を16倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including an alloyed synchronous heat retaining turbine having a gravity acceleration section (1g) each provided with a turbine blade cross section (4X) 16 times. タービン翼断面(4X)を17倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including alloy facing synchronous heat retaining turbine having a gravity acceleration section (1g) each provided with 17 times the turbine blade cross section (4X). タービン翼断面(4X)を18倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including an alloyed synchronous heat retaining turbine having a gravity acceleration section (1g) each provided with a turbine blade cross section (4X) 18 times. タービン翼断面(4X)を19倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including an alloyed synchronous heat retaining turbine having a gravity acceleration section (1g) each provided with a 19 × turbine blade cross section (4 ×). タービン翼断面(4X)を20倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including alloy facing synchronous heat retaining turbines each having a gravity acceleration section (1g) provided with a 20 times larger turbine blade cross section (4X). タービン翼断面(4X)を21倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including an alloyed synchronous heat retaining turbine having a gravity acceleration section (1g) each provided with a 21 × turbine blade cross section (4 ×). タービン翼断面(4X)を22倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including an alloyed synchronous heat retaining turbine having a gravity acceleration section (1g) each provided with a 22 × turbine blade cross section (4 ×). タービン翼断面(4X)を23倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including an alloyed synchronous heat retaining turbine having a gravity acceleration section (1g) each provided with a 23 × turbine blade cross section (4 ×). タービン翼断面(4X)を24倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including alloy facing synchronous heat retaining turbines each having a gravity acceleration section (1g) provided with 24 times the turbine blade cross section (4X). タービン翼断面(4X)を25倍に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescing engines driven by liquid metal including an alloyed synchronous heat retaining turbine having a gravity acceleration section (1g) provided with 25 times the turbine blade cross section (4X). 液体金属重力対向タービン3種類を103段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity acceleration part (1g) respectively provided with three types of liquid metal gravity opposing turbines in 103 stages. 液体金属重力対向タービン3種類を104段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) respectively provided with 104 types of liquid metal gravity opposing turbines in 104 stages. 液体金属重力対向タービン3種類を105段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) provided with 105 types of three types of liquid metal gravity opposing turbines. 液体金属重力対向タービン3種類を106段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) respectively provided with 106 types of liquid metal gravity opposing turbines in 106 stages. 液体金属重力対向タービン3種類を107段に設けた+太陽光加熱器を水面上で傾斜回転させる各種エネルギ保存サイクル合体機関。   A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, which has three types of liquid metal gravity opposing turbines provided in 107 stages. 液体金属重力対向タービン3種類を108段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle combined engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity acceleration part (1g) provided with 108 types of liquid metal gravity opposing turbines in 108 stages. 液体金属重力対向タービン3種類を109段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with three types of liquid metal gravity facing turbines in 109 stages. 液体金属重力対向タービン3種類を110段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with three types of liquid metal gravity opposing turbines in 110 stages. 液体金属重力対向タービン3種類を111段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity acceleration part (1g) respectively provided with three types of liquid metal gravity opposing turbines in 111 stages. 液体金属重力対向タービン3種類を112段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity acceleration part (1g) respectively provided with 3 types of liquid metal gravity opposing turbines in 112 stages. 液体金属重力対向タービン3種類を113段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 113 stages of three types of liquid metal gravity facing turbines. 液体金属重力対向タービン3種類を114段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) each provided with 114 stages of liquid metal gravity opposing turbines. 液体金属重力対向タービン3種類を115段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity acceleration part (1g) respectively provided with three types of liquid metal gravity opposing turbines in 115 stages. 液体金属重力対向タービン3種類を116段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with three types of liquid metal gravity opposing turbines in 116 stages. 液体金属重力対向タービン3種類を117段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) each provided with 117 types of liquid metal gravity opposing turbines in 117 stages. 液体金属重力対向タービン3種類を118段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 3 types of liquid metal gravity facing turbines in 118 stages. 液体金属重力対向タービン3種類を119段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) provided with three types of liquid metal gravity opposing turbines in 119 stages. 液体金属重力対向タービン3種類を120段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) provided with 120 types of liquid metal gravity opposing turbines in 120 stages. 液体金属重力対向タービン3種類を1段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle combined engines driven by liquid metal including alloy facing synchronous heat retaining turbine having a gravity acceleration part (1g) respectively provided with three types of liquid metal gravity facing turbines in one stage. 液体金属重力対向タービン3種類を2段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with two types of liquid metal gravity facing turbines in two stages. 液体金属重力対向タービン3種類を3段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with three types of liquid metal gravity facing turbines in three stages. 液体金属重力対向タービン3種類を4段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with four types of liquid metal gravity facing turbines in four stages. 液体金属重力対向タービン3種類を5段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 5 types of liquid metal gravity facing turbines in 5 stages. 液体金属重力対向タービン3種類を6段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with six types of liquid metal gravity facing turbines in six stages. 液体金属重力対向タービン3種類を7段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 7 types of liquid metal gravity facing turbines in 7 stages. 液体金属重力対向タービン3種類を8段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with eight types of liquid metal gravity facing turbines in eight stages. 液体金属重力対向タービン3種類を9段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 9 types of liquid metal gravity facing turbines in 9 stages. 液体金属重力対向タービン3種類を10段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity acceleration part (1g) provided with 10 types of liquid metal gravity opposing turbines in 10 stages. 液体金属重力対向タービン3種類を11段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with three types of liquid metal gravity facing turbines in 11 stages. 液体金属重力対向タービン3種類を12段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 12 types of liquid metal gravity facing turbines in 12 stages. 液体金属重力対向タービン3種類を13段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) each provided with 13 types of liquid metal gravity opposing turbines in 13 stages. 液体金属重力対向タービン3種類を14段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) respectively provided with 14 types of liquid metal gravity opposing turbines in 14 stages. 液体金属重力対向タービン3種類を15段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 15 types of liquid metal gravity facing turbines in 15 stages. 液体金属重力対向タービン3種類を16段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 16 types of liquid metal gravity facing turbines in 16 stages. 液体金属重力対向タービン3種類を17段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity acceleration part (1g) respectively provided with 17 types of liquid metal gravity opposing turbines in 17 stages. 液体金属重力対向タービン3種類を18段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 18 types of liquid metal gravity facing turbines in 18 stages. 液体金属重力対向タービン3種類を19段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) respectively provided with three types of liquid metal gravity opposing turbines in 19 stages. 液体金属重力対向タービン3種類を20段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with 20 types of liquid metal gravity opposing turbines in 20 stages. 液体金属重力対向タービン3種類を21段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 21 types of liquid metal gravity facing turbines in 21 stages. 液体金属重力対向タービン3種類を22段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with 22 types of liquid metal gravity opposing turbines in 22 stages. 液体金属重力対向タービン3種類を23段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 23 types of liquid metal gravity facing turbines in 23 stages. 液体金属重力対向タービン3種類を24段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 24 types of liquid metal gravity facing turbines in 24 stages. 液体金属重力対向タービン3種類を25段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity acceleration part (1g) provided with 25 stages of 3 types of liquid metal gravity opposing turbines. 液体金属重力対向タービン3種類を26段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity acceleration part (1g) respectively provided with 26 types of liquid metal gravity opposing turbines in 26 stages. 液体金属重力対向タービン3種類を27段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) respectively provided with 27 types of liquid metal gravity opposing turbines in 27 stages. 液体金属重力対向タービン3種類を28段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity acceleration part (1g) respectively provided with 28 stages of liquid metal gravity opposing turbines in 28 stages. 液体金属重力対向タービン3種類を29段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with two types of liquid metal gravity opposing turbines in 29 stages, each equipped with a gravity acceleration unit (1g). 液体金属重力対向タービン3種類を30段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 30 types of liquid metal gravity facing turbines in 30 stages. 液体金属重力対向タービン3種類を31段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 31 types of liquid metal gravity facing turbines in 31 stages. 液体金属重力対向タービン3種類を32段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) provided with 32 types of liquid metal gravity opposing turbines in 32 stages. 液体金属重力対向タービン3種類を33段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with 33 types of liquid metal gravity opposing turbines in 33 stages. 液体金属重力対向タービン3種類を34段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) respectively provided with 34 types of liquid metal gravity opposing turbines in 34 stages. 液体金属重力対向タービン3種類を35段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity acceleration part (1g) provided with 35 types of liquid metal gravity opposing turbines in 35 stages. 液体金属重力対向タービン3種類を36段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 36 types of liquid metal gravity facing turbines in 36 stages. 液体金属重力対向タービン3種類を37段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with 371 stages of liquid metal gravity opposing turbines in 37 stages respectively. 液体金属重力対向タービン3種類を38段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 38 types of liquid metal gravity facing turbines in 38 stages. 液体金属重力対向タービン3種類を39段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) provided with 39 types of liquid metal gravity opposing turbines in 39 stages. 液体金属重力対向タービン3種類を40段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 40 types of liquid metal gravity facing turbines in 40 stages. 液体金属重力対向タービン3種類を41段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) each provided with 41 types of liquid metal gravity opposing turbines in 41 stages. 液体金属重力対向タービン3種類を42段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) provided with 42 types of liquid metal gravity opposing turbines in 42 stages. 液体金属重力対向タービン3種類を43段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 43 types of liquid metal gravity facing turbines in 43 stages. 液体金属重力対向タービン3種類を44段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbines equipped with gravity accelerating part (1g) each provided with 44 stages of liquid metal gravity facing turbines in 44 stages. 液体金属重力対向タービン3種類を45段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) provided with 45 types of liquid metal gravity opposing turbines in 45 stages. 液体金属重力対向タービン3種類を46段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) each provided with 46 types of liquid metal gravity opposing turbines in 46 stages. 液体金属重力対向タービン3種類を47段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbines equipped with gravity acceleration part (1g) respectively provided with 47 types of liquid metal gravity opposing turbines. 液体金属重力対向タービン3種類を48段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) provided with 48 types of liquid metal gravity opposing turbines in 48 stages. 液体金属重力対向タービン3種類を49段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity acceleration part (1g) provided with 49 types of liquid metal gravity opposing turbines in 49 stages. 液体金属重力対向タービン3種類を50段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity acceleration part (1g) respectively provided with 50 types of liquid metal gravity opposing turbines in 50 stages. 液体金属重力対向タービン3種類を51段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) provided with 51 types of liquid metal gravity opposing turbines in 51 stages. 液体金属重力対向タービン3種類を52段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) provided with 52 types of liquid metal gravity opposing turbines in 52 stages. 液体金属重力対向タービン3種類を53段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) provided with 53 types of liquid metal gravity opposing turbines in 53 stages. 液体金属重力対向タービン3種類を54段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with 54 types of liquid metal gravity opposing turbines in 54 stages. 液体金属重力対向タービン3種類を55段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity acceleration part (1g) respectively provided with 55 types of liquid metal gravity opposing turbines. 液体金属重力対向タービン3種類を56段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with 56 types of liquid metal gravity opposing turbines in 56 stages. 液体金属重力対向タービン3種類を57段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with 57 types of liquid metal gravity opposing turbines in 57 stages respectively. 液体金属重力対向タービン3種類を58段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 58 types of liquid metal gravity facing turbines in 58 stages. 液体金属重力対向タービン3種類を59段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with 59 types of liquid metal gravity opposing turbines in 59 stages. 液体金属重力対向タービン3種類を60段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 60 types of liquid metal gravity facing turbines in 60 stages. 液体金属重力対向タービン3種類を61段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) respectively provided with three types of liquid metal gravity opposing turbines in 61 stages. 液体金属重力対向タービン3種類を62段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with two types of liquid metal gravity opposing turbines in 62 stages, each equipped with a gravity acceleration unit (1g). 液体金属重力対向タービン3種類を63段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with three types of liquid metal gravity opposing turbines in 63 stages. 液体金属重力対向タービン3種類を64段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) each provided with 64 types of liquid metal gravity opposing turbines in 64 stages. 液体金属重力対向タービン3種類を65段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity acceleration part (1g) respectively provided with three types of liquid metal gravity opposing turbines in 65 stages. 液体金属重力対向タービン3種類を66段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with three types of liquid metal gravity facing turbines in 66 stages. 液体金属重力対向タービン3種類を67段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity acceleration part (1g) respectively provided with three types of liquid metal gravity opposing turbines in 67 stages. 液体金属重力対向タービン3種類を68段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity acceleration units (1g) each provided with 68 types of liquid metal gravity opposing turbines in 68 stages. 液体金属重力対向タービン3種類を69段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with 69 types of liquid metal gravity opposing turbines in 69 stages. 液体金属重力対向タービン3種類を70段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 70 types of liquid metal gravity facing turbines in 70 stages. 液体金属重力対向タービン3種類を71段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity acceleration part (1g) respectively provided with three types of liquid metal gravity opposing turbines in 71 stages. 液体金属重力対向タービン3種類を72段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) each provided with 72 types of liquid metal gravity opposing turbines in 72 stages. 液体金属重力対向タービン3種類を73段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with three types of liquid metal gravity facing turbines in 73 stages. 液体金属重力対向タービン3種類を74段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 74 types of liquid metal gravity facing turbines in 74 stages. 液体金属重力対向タービン3種類を75段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) provided with 75 types of liquid metal gravity opposing turbines in 75 stages. 液体金属重力対向タービン3種類を76段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 76 types of liquid metal gravity facing turbines in 76 stages. 液体金属重力対向タービン3種類を77段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with 77 types of liquid metal gravity opposing turbines in 77 stages. 液体金属重力対向タービン3種類を78段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with 78 types of liquid metal gravity opposing turbines in 78 stages. 液体金属重力対向タービン3種類を79段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) each provided with 79 types of liquid metal gravity opposing turbines in 79 stages. 液体金属重力対向タービン3種類を80段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity acceleration part (1g) provided with 80 types of liquid metal gravity opposing turbines in 80 stages. 液体金属重力対向タービン3種類を81段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with 81 types of liquid metal gravity opposing turbines. 液体金属重力対向タービン3種類を82段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with 82 types of liquid metal gravity opposing turbines. 液体金属重力対向タービン3種類を83段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy opposing heat retaining turbines equipped with gravity accelerating part (1g) each provided with 83 stages of liquid metal gravity opposing turbines. 液体金属重力対向タービン3種類を84段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) each provided with 84 stages of liquid metal gravity opposing turbines. 液体金属重力対向タービン3種類を85段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) provided with 85 types of liquid metal gravity opposing turbines in 85 stages. 液体金属重力対向タービン3種類を86段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 86 types of liquid metal gravity facing turbines in 86 stages. 液体金属重力対向タービン3種類を87段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy opposing heat retaining turbines equipped with 87 types of liquid metal gravity opposing turbines in 87 stages respectively. 液体金属重力対向タービン3種類を88段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with 88 types of liquid metal gravity opposing turbines. 液体金属重力対向タービン3種類を89段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) each provided with 89 stages of liquid metal gravity opposing turbines. 液体金属重力対向タービン3種類を90段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with 90 types of liquid metal gravity opposing turbines in 90 stages. 液体金属重力対向タービン3種類を91段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy opposing heat retaining turbines equipped with gravity accelerating part (1g) respectively provided with 91 types of liquid metal gravity opposing turbines in 91 stages. 液体金属重力対向タービン3種類を92段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with two types of liquid metal gravity opposing turbines in 92 stages. 液体金属重力対向タービン3種類を93段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with 93 types of liquid metal gravity opposing turbines in 93 stages. 液体金属重力対向タービン3種類を94段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with 94 types of liquid metal gravity opposing turbines. 液体金属重力対向タービン3種類を95段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy facing synchronous heat retaining turbine with a gravity acceleration unit (1g) provided with 95 types of liquid metal gravity facing turbines in 95 stages. 液体金属重力対向タービン3種類を96段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including alloy opposing heat retaining turbines equipped with gravity accelerating part (1g) respectively provided with 96 types of liquid metal gravity opposing turbines in 96 stages. 液体金属重力対向タービン3種類を97段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) each provided with 97 types of liquid metal gravity opposing turbines in 97 stages. 液体金属重力対向タービン3種類を98段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) each provided with 98 stages of liquid metal gravity opposing turbines. 液体金属重力対向タービン3種類を99段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle combined engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) provided with 99 types of three types of liquid metal gravity opposing turbines. 液体金属重力対向タービン3種類を100段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbines equipped with gravity accelerating part (1g) each provided with 100 types of liquid metal gravity opposing turbines in 100 stages. 液体金属重力対向タービン3種類を101段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity accelerating part (1g) respectively provided with three types of liquid metal gravity opposing turbines in 101 stages. 液体金属重力対向タービン3種類を102段に設けた夫々重力加速部(1g)具備の同期対向保温タービンを合金含む液体金属で駆動する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines driven by liquid metal including synchronous opposing heat-retaining turbine equipped with gravity acceleration part (1g) respectively provided with three types of liquid metal gravity opposing turbines in 102 stages.
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